CN103312874A - Mobile equipment operation state converting method and mobile equipment - Google Patents

Abstract

The invention discloses a mobile equipment operation state converting method and mobile equipment. The mobile equipment obtains induction parameters of the mobile equipment through a thermo-sensitive induction unit; and if the induction parameters of the mobile equipment meet predetermined conditions, a current state of the mobile equipment is changed. Compared with the prior art, complicated button operations are not required; the operation is simple, and method is convenient to use; the service life of the button is prolonged; besides, time spent in converting an operating state of the mobile equipment into a sleep state is reduced, and electric energy is saved.

Description

Mobile device operating state converting method and mobile device

Technical field

The application relates to the mobile device technical field, particularly relates to a kind of mobile device operating state converting method and mobile device.

Background technology

Mobile device is such as mobile phone, Pad etc., and when being in idle condition, in order to save electric energy, mobile device can enter sleep state, keeps the standby of minimum charged power consumption blank screen.When if the user operates mobile device, must click buttons such as power key, numerical key or function key, just can wake mobile device up, light screen, release is brought into use then, and this kind wakes mode up and be called the mode of initiatively waking up, after the user must carry out button operation, just can wake up and be in dormant mobile device, this kind mode complicated operation, use inconvenience, and increased the frequency of utilization of button, shortened the useful life of button.

On the other hand, at present, make mobile device enter dormant a kind of mode to be, after the user pressed the function key of power key, screen locking or locking key dish, mobile device entered sleep state, and complex operation has increased the frequency of utilization of button, has shortened the useful life of button; Mobile device enters dormant another kind of mode, after mobile device is in the idle condition Preset Time, can enter sleep state, and in described Preset Time, the screen of described mobile device is in illuminating state, the waste electric energy.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the present application provides a kind of mobile device operating state converting method and mobile device, so that solution/with realization, technical scheme is as follows:

The application provides a kind of mobile device operating state converting method, comprising:

Obtain the sensed parameter of described mobile device by the temperature-sensitive sensing unit;

When the sensed parameter that detects described mobile device reaches described first when pre-conditioned, control described mobile device and be converted to running status by sleep state;

When the sensed parameter that detects described mobile device obtains described second when pre-conditioned, control described mobile device and be converted to sleep state by running status.

Preferably, described sensed parameter comprises: the temperature parameter of described mobile device predeterminable area and/or the kinematic parameter of described mobile device.

Preferably, when described sensed parameter was the temperature parameter of described mobile device predeterminable area, described first pre-conditioned the comprising: the temperature of described mobile device predeterminable area was uprised by low, and remains in the preset temperature range;

The described second pre-conditioned temperature for described mobile device predeterminable area is by high step-down and exceed described preset range.

Preferably, described kinematic parameter is the direction of the acceleration of described mobile device, describedly obtains the sensed parameter of described mobile device by the temperature-sensitive sensing unit, further comprises:

Detect the temperature change value of described mobile device by the temperature-sensitive sensing unit, when described temperature value changes when reaching threshold value, open the acceleration sensing unit, the acceleration sensing unit obtains described kinematic parameter.

Preferably, described first pre-conditionedly is: the direction of the acceleration of motion of described mobile device is in first preset direction; The direction of the described second pre-conditioned acceleration of motion for described mobile device is in second preset direction.

The application also provides a kind of mobile device, comprising:

The temperature-sensitive sensing unit is for the sensed parameter of obtaining mobile device;

Whether detection module satisfies pre-conditionedly for detection of described sensed parameter, obtain testing result;

Control module, when being used for receiving described sensed parameter and satisfying the first pre-conditioned testing result, produce the described mobile device of control is converted to running status by sleep state control signal, and when being used for receiving described sensed parameter and satisfying the second pre-conditioned testing result, produce the described mobile device of control and be converted to dormant control signal by running status.

Preferably, also comprise the acceleration sensing unit, be used for when the temperature change value of the detected described mobile device of described temperature-sensitive sensing unit reaches threshold value, obtaining the sensed parameter of mobile device.

Preferably, described control module is further used for, and the temperature that receives described mobile device predeterminable area is uprised by low, and when remaining on testing result in the preset temperature range, controls described mobile device and be converted to running status by sleep state; And, when being reduced by preset temperature range for detection of the temperature to described mobile device predeterminable area, control described mobile device and be converted to sleep state by running status.

Preferably, described control module is further used for, and when the acceleration of motion that receives described mobile device is in the testing result of first preset direction, controls described mobile device and is converted to running status by sleep state; And, when being in the testing result of second preset direction for the acceleration of motion that receives described mobile device, controlling described mobile device and be converted to sleep state by running status.

Preferably, described temperature-sensitive sensing unit is the temperature sensor that is arranged on described mobile device predeterminable area.

The technical scheme that is provided by above the embodiment of the present application as seen, described mobile device obtains the sensed parameter of mobile device by the thermal sensing unit, the sensed parameter of judging mobile device satisfies when pre-conditioned, changes the current state of mobile device, compared with prior art, do not need to carry out complicated button operation, simple to operate, easy to use, prolonged useful life of button, and, shorten mobile device and enter the dormant time by running status, saved electric energy.

Description of drawings

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, the accompanying drawing that describes below only is some embodiment that put down in writing among the application, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic flow sheet of a kind of mobile device operating state converting method of the embodiment of the present application;

Fig. 2 is the concrete application example of a kind of mobile device operating state converting method of the embodiment of the present application;

Fig. 3 is the concrete application example of the another kind of mobile device operating state converting method of the embodiment of the present application;

Fig. 4 is the internal structure schematic diagram of a kind of mobile device of the embodiment of the present application;

Fig. 5 is the structural representation of the another kind of mobile device of the embodiment of the present application.

Embodiment

In order to make those skilled in the art person understand technical scheme among the application better, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment only is the application's part embodiment, rather than whole embodiment.Based on the embodiment among the application, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all should belong to the scope of the application's protection.

See also Fig. 1, show a kind of schematic flow sheet of mobile device operating state converting method, this method may further comprise the steps:

S101 obtains the sensed parameter of mobile device by the temperature-sensitive sensing unit;

Described sensed parameter comprises: the temperature parameter of the predeterminable area of described mobile device and/or the kinematic parameter of this mobile device, concrete, when described sensed parameter is the kinematic parameter of described mobile device, detect the temperature change value of mobile device by the temperature-sensitive sensing unit, when described variations in temperature reaches threshold value, open the acceleration sensing unit, utilize described acceleration sensing unit to obtain the kinematic parameter of described mobile device.

S102, it is first pre-conditioned whether the sensed parameter of judging described mobile device satisfies, if, execution in step S103 then, otherwise, step S104 returned;

Concrete, if when described sensed parameter is the temperature parameter of predeterminable area of described mobile device, the described first pre-conditioned temperature for described mobile device predeterminable area is uprised by low, and remains in the preset temperature range.When palm touches described mobile device predeterminable area, when the temperature that causes described predeterminable area changes from low to high, and finally remain in the preset temperature range, think that the user will use described mobile device, control described mobile device and be converted to running status from sleep state this moment.Described preset temperature range is the excursion of human body temperature.

If described sensed parameter is the kinematic parameter of mobile device, then the direction of the described first pre-conditioned acceleration of motion for described mobile device is in first preset direction; Described first preset direction is the direction of pre-defined acceleration, such as, hold described mobile device and rock from side to side when moving, be defined as mobile device and be converted to running status by sleep state.

S103 controls described mobile device and is converted to running status by sleep state;

S104, it is second pre-conditioned whether the sensed parameter of judging described mobile device satisfies, if, execution in step S105 then, otherwise, step S101 returned;

Concrete, when described sensed parameter was the temperature parameter of predeterminable area of described mobile device, the temperature of the described second pre-conditioned predeterminable area for described mobile device was by high step-down and exceed described preset range.Such as, the user is after using described mobile device, and mobile device causes that the temperature of the predeterminable area of described mobile device changes after breaking away from palm, exceeds described preset temperature range.This preset temperature range is the excursion of human body temperature.

When described sensed parameter is the kinematic parameter of described mobile device, the direction of the described second pre-conditioned acceleration of motion for described mobile device is in second preset direction, this second preset direction is pre-defined acceleration direction, such as, after the user uses described mobile device, hold described mobile device and clockwise rotate mobile device, be defined as mobile device and enter sleep state by running status, this action is clockwise motion, no waggle action.

S105 controls described mobile device and is converted to sleep state by running status.

The mobile device status conversion method that present embodiment provides, obtain the sensed parameter of mobile device by the thermal sensing unit, the sensed parameter of judging mobile device satisfies when pre-conditioned, changes the current state of mobile device, compared with prior art, do not need to carry out complicated button operation, simple to operate, easy to use, prolonged useful life of button, and, shorten mobile device and enter the time of sleep, saved electric energy.

See also the concrete application example that Fig. 2 shows a kind of mobile device operating state converting method, concrete conversion method may further comprise the steps:

S201 obtains the temperature parameter of mobile device predeterminable area by the temperature-sensitive sensing unit;

Described temperature-sensitive sensing unit can be thermistor or infrared thermal detector; Described predeterminable area is chosen to be the zone that the user holds described mobile device.

S202 when the temperature parameter that detects described mobile device is uprised by low, and when remaining in the preset temperature range, controls described mobile device and enters running status by sleep state;

The temperature of people's palm is in the normal temperature scope usually indoor, when the operator operates described mobile device, hold described mobile device, make the temperature in the zone that mobile device contacts with palm be elevated to human body temperature by room temperature, and remain in the described preset temperature range, at this moment, control sleep and wake module in the described mobile device, make mobile device enter running status.Preset temperature range herein is that human body is in the indoor normal temperature scope that is in usually, such as described preset temperature range being set at 36 ℃～37 ℃.

Described running status can be the states such as screen, wait release or operate as normal of lighting mobile device.

S203, when the temperature parameter that detects described mobile device by high step-down and when exceeding described preset temperature range, control described mobile device and enter sleep state by running status;

Under indoor situation, when the operator has operated described mobile device, mobile device and people's palm disengage, make the temperature human body temperature of predeterminable area of mobile device be reduced to room temperature gradually, exceed described preset temperature range, at this moment, control sleep and wake module in the described mobile device, make mobile device enter sleep state.

The mobile device status conversion method that present embodiment provides, obtain the temperature parameter of mobile device predeterminable area by the temperature-sensitive sensing unit, and satisfy when pre-conditioned judging temperature parameter, change the current state of mobile device, compared with prior art, do not need to carry out complicated button operation, simple to operate, easy to use, prolonged useful life of button, and, shorten mobile device and enter the time of sleep, saved electric energy.

See also Fig. 3, show the schematic flow sheet of another kind of mobile device operating state converting method, this method comprises:

S301 obtains the temperature parameter of mobile device by the temperature-sensitive sensing unit;

Described temperature-sensitive sensing unit can be thermistor or infrared thermal detector.

S302 judges whether the changing value of described temperature parameter reaches threshold value, if, execution in step S303 then, otherwise, step S301 returned;

S303 opens the kinematic parameter that the acceleration sensing unit obtains mobile device;

Described acceleration sensing unit specifically can be realized by gravity sensor G-sensor.

S304 when the kinematic parameter that detects described mobile device satisfies first when pre-conditioned, controls described mobile device and enters running status by sleep state;

Described first pre-conditioned in the present embodiment is for the direction of the acceleration of motion of described mobile device is in first preset direction; Described first preset direction is the direction of pre-defined acceleration, such as, hold described mobile device and rock from side to side when moving, be defined as mobile device and be converted to running status by sleep state.

S305 when the kinematic parameter that detects described mobile device satisfies second when pre-conditioned, controls described mobile device and enters sleep state by running status;

The direction of the described second pre-conditioned acceleration of motion for described mobile device is in second preset direction, this second preset direction is pre-defined acceleration direction, such as, after the user uses described mobile device, hold described mobile device and clockwise rotate mobile device, be defined as mobile device and enter sleep state by running status, this action is clockwise motion, no waggle action.

The mobile device status conversion method that present embodiment provides with reference to temperature parameter and the kinematic parameter of mobile device, is determined the state change over condition of mobile device, thereby is got rid of a large amount of violate-actions simultaneously, has improved the state accuracy of conversion.

See also Fig. 4, show the internal structure schematic diagram of a kind of mobile device that the embodiment of the present application provides, this mobile device is provided with: temperature-sensitive sensing unit 1, detection module 2, control module 3, sleep and wake module 4, wherein:

Described temperature-sensitive sensing unit 1 is arranged in the predeterminable area of described mobile device, is used for the temperature parameter of the described mobile device of induction.

Described predeterminable area behaviour palm grips the contacted zone of described mobile device.

Concrete, this temperature-sensitive sensing unit can select for use the thermistor or the infrared thermal detector that are complementary with human body palm temperature to realize, after namely this thermistor or infrared thermal detector are sensed the normal temperature scope at human body place, the resistance generation acute variation of its resistance, and then detected this situation of change by late-class circuit.

In addition, the thermistor that can select for use the outward appearance of shape and mobile device to adapt.

Described detection module links to each other with described temperature-sensitive sensing unit 1, and whether the changing value of the sensed parameter that obtains for detection of described temperature-sensitive sensing unit 1 satisfies pre-conditioned;

Concrete, described detection module, produces corresponding control signal and offers described control module 3 when described change in resistance value reaches threshold value for detection of the change in resistance value of described thermistor.

Described control module 3 links to each other with described detection module 2, is used for the state according to sleep and wake module 4 in the testing result control mobile device of described detection module, and then changes the current state of mobile device.

Concrete, when described mobile device is held in the staff grasp, after the temperature of people's palm is sensed by the temperature-sensitive sensing unit, cause the variation of resistance, after detection module 2 detects described change in resistance situation, produce first control signal, after control module 3 receives described first control signal, control described sleep and wake module 4 makes mobile device enter running status by sleep state;

After people's palm and the disengaging of described mobile device, make the temperature of mobile device predeterminable area change, after this temperature variations is sensed by the temperature-sensitive sensing unit, cause the variation of resistance, after detection module 2 detects this change in resistance situation, produce second control signal, after control module receives described second control signal, control described sleep and wake module 4 makes mobile device enter sleep state by running status.

The mobile device that present embodiment provides, obtain the sensed parameter of mobile device by the thermal sensing unit, the sensed parameter of judging mobile device by detection module satisfies pre-conditioned, by the current state of control module change mobile device, whole state conversion process need not the operator and carries out complicated button operation, and is simple to operate, easy to use, prolong the useful life of button, and shortened mobile device and enter the dormant time by running status, saved electric energy.

See also Fig. 5, show the structural representation of the another kind of mobile device that the embodiment of the present application provides, compare with Fig. 4 corresponding mobile device, set up the acceleration sensing unit, specifically comprise:

Temperature-sensitive sensing unit 1, detection module 2, control module 3, sleep and wake module 4 and acceleration sensing unit 5.

Described temperature-sensitive sensing unit 1 is arranged in the predeterminable area of described mobile device, is used for the temperature parameter of the described mobile device of induction.Described predeterminable area behaviour palm grips the contacted zone of described mobile device.

Described acceleration sensing unit 5 links to each other with described temperature-sensitive sensing unit 1, is used for obtaining the kinematic parameter of described mobile device, and concrete, this kinematic parameter is the acceleration parameter of described mobile device.

Concrete, after the variations in temperature in the temperature-sensitive sensing unit is experienced the predeterminable area of mobile device, cause the variation of resistance, and then open the acceleration parameter that described acceleration sensing unit 5 is used for obtaining mobile device.

Whether described detection module 2 links to each other with described acceleration sensing unit 5, satisfy pre-conditionedly for detection of the acceleration parameter of described mobile device, produces corresponding control signal.

Described control module 3 links to each other with described detection module 2, is used for the state according to sleep and wake module 4 in the testing result control mobile device of described detection module, and then changes the current state of mobile device.

Suppose that will hold the described mobile device movement definition that rocks from side to side is first preset direction, and be defined as mobile device and be converted to running status by sleep state.To hold described mobile device and clockwise rotate mobile device and be defined as second preset direction, and be defined as mobile device and enter sleep state by running status, this action is clockwise motion, and no waggle moves.

Concrete, when holding described mobile device and rock from side to side, when the direction that detection module 2 detects the acceleration of the mobile device of sensing described acceleration sensing unit 5 is in first preset direction, produce first control signal, after control module 3 receives described first control signal, control described sleep and wake module 4 makes mobile device enter running status by sleep state;

When holding described mobile device and clockwise rotate, when the direction that detection module 2 detects the acceleration of the mobile device of sensing described acceleration sensing unit 5 is in second preset direction, produce second control signal, after control module 3 receives described second control signal, control described sleep and wake module 4 makes mobile device enter sleep state by running status;

The mobile device that present embodiment provides with reference to temperature parameter and the kinematic parameter of mobile device, is determined the operating state change over condition of mobile device, thereby is got rid of a large amount of violate-actions simultaneously, has improved the state accuracy of conversion.

Need to prove, in this article, relational terms such as first and second grades only is used for an entity or operation are made a distinction with another entity or operation, and not necessarily requires or hint and have the relation of any this reality or in proper order between these entities or the operation.

The above only is the application's embodiment; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the application's principle; can also make some improvements and modifications, these improvements and modifications also should be considered as the application's protection range.

Claims (10)

1. a mobile device operating state converting method is characterized in that, comprising:

Obtain the sensed parameter of described mobile device by the temperature-sensitive sensing unit;

When the sensed parameter that detects described mobile device reaches described first when pre-conditioned, control described mobile device and be converted to running status by sleep state;

When the sensed parameter that detects described mobile device obtains described second when pre-conditioned, control described mobile device and be converted to sleep state by running status.

2. method according to claim 1 is characterized in that, described sensed parameter comprises: the temperature parameter of described mobile device predeterminable area and/or the kinematic parameter of described mobile device.

3. method according to claim 2, it is characterized in that, when described sensed parameter was the temperature parameter of described mobile device predeterminable area, described first pre-conditioned the comprising: the temperature of described mobile device predeterminable area was uprised by low, and remains in the preset temperature range;

The described second pre-conditioned temperature for described mobile device predeterminable area is by high step-down and exceed described preset range.

4. method according to claim 2 is characterized in that, described kinematic parameter is the direction of the acceleration of described mobile device, describedly obtains the sensed parameter of described mobile device by the temperature-sensitive sensing unit, further comprises:

Detect the temperature change value of described mobile device by the temperature-sensitive sensing unit, when described temperature value changes when reaching threshold value, open the acceleration sensing unit, the acceleration sensing unit obtains described kinematic parameter.

5. method according to claim 4 is characterized in that, described first pre-conditionedly is: the direction of the acceleration of motion of described mobile device is in first preset direction; The direction of the described second pre-conditioned acceleration of motion for described mobile device is in second preset direction.

6. a mobile device is characterized in that, comprising:

The temperature-sensitive sensing unit is for the sensed parameter of obtaining mobile device;

Whether detection module satisfies pre-conditionedly for detection of described sensed parameter, obtain testing result;

Control module, when being used for receiving described sensed parameter and satisfying the first pre-conditioned testing result, produce the described mobile device of control is converted to running status by sleep state control signal, and when being used for receiving described sensed parameter and satisfying the second pre-conditioned testing result, produce the described mobile device of control and be converted to dormant control signal by running status.

7. mobile device according to claim 6 is characterized in that, also comprises the acceleration sensing unit, is used for obtaining the sensed parameter of mobile device when the temperature change value of the detected described mobile device of described temperature-sensitive sensing unit reaches threshold value.

8. mobile device according to claim 6, it is characterized in that, described control module is further used for, the temperature that receives described mobile device predeterminable area is uprised by low, and when remaining on testing result in the preset temperature range, control described mobile device and be converted to running status by sleep state; And, when being reduced by preset temperature range for detection of the temperature to described mobile device predeterminable area, control described mobile device and be converted to sleep state by running status.

9. mobile device according to claim 7, it is characterized in that, described control module is further used for, and when the acceleration of motion that receives described mobile device is in the testing result of first preset direction, controls described mobile device and is converted to running status by sleep state; And, when being in the testing result of second preset direction for the acceleration of motion that receives described mobile device, controlling described mobile device and be converted to sleep state by running status.

10. according to each described mobile device of claim 6-9, it is characterized in that described temperature-sensitive sensing unit is the temperature sensor that is arranged on described mobile device predeterminable area.

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