CN105359058A - Boot method and apparatus for device and terminal device - Google Patents

Boot method and apparatus for device and terminal device Download PDF

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Publication number
CN105359058A
CN105359058A CN201380077956.5A CN201380077956A CN105359058A CN 105359058 A CN105359058 A CN 105359058A CN 201380077956 A CN201380077956 A CN 201380077956A CN 105359058 A CN105359058 A CN 105359058A
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China
Prior art keywords
signal
trigger signal
microprocessor
terminal device
reception
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CN201380077956.5A
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Chinese (zh)
Inventor
钟光华
朱雄伟
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Huawei Device Co Ltd
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Huawei Device Co Ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/4401Bootstrapping

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  • Engineering & Computer Science (AREA)
  • Software Systems (AREA)
  • Theoretical Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Power Sources (AREA)
  • Telephone Function (AREA)

Abstract

Provided is a boot method for a device. The method is applied to a terminal device and the method comprises: receiving, by a microprocessor, a trigger signal collected by a sensor; acquiring, by the microprocessor, a state of an application processor, wherein the state of the application processor comprises a dormant state, a working state or a power-off state; and when the state of the application processor is the power-off state, sending, by the microprocessor, a boot signal to a power management unit according to the received trigger signal, the boot signal being used for starting the power management unit so as to enable the power management unit to supply power to the application processor. The method provided in the present invention also can start an application corresponding to a terminal device without providing a physical button, and since the terminal device does not have any complex physical button, the terminal device is reserved with more space, and saving the above-mentioned reserved space can realize the lightening and thinning of the terminal device. Also provided are a micro-controller and a terminal device.

Description

Boot method and apparatus for device and terminal device
A kind of starting-up method of equipment, device and terminal device technical field
The present invention relates to start process field, more specifically to a kind of starting-up method of equipment, device and terminal device.Background technology
With the continuous development of scientific technology, the terminal device such as mobile phone be widely used in people say often life in.Common, mobile phone or other-end equipment generally can all set physical button to carry out man-machine interaction, the operation such as boot up, input.
In traditional start-up mode; a physical switch button would generally be set to carry out the start of terminal device; even if being provided with the terminal device of touch-screen; also the switch key of a physics can be set to boot up operation; and physical button is typically necessary and takes certain space, and there is the mechanical structure of complexity.
Obviously, in existing start-up mode, the physical button set on terminal device is unfavorable for terminal device and does thin, does small.The content of the invention
In view of this, man-machine interaction is carried out to solve to need to set physical button in the prior art, physical button is typically necessary the problem of taking certain space and complicated in mechanical structure, and the present invention provides a kind of starting-up method of equipment, and technical scheme is as follows:
The first aspect of the application provides a kind of starting-up method of equipment, and methods described is applied to terminal device, and methods described includes:
Microprocessor receives the trigger signal of sensor collection;
The microprocessor obtains the state of application processor, and the state of the application processor includes resting state, working condition or off-mode;
When the state of the application processor is off-mode, the microprocessor is according to the trigger signal of reception, starting-up signal is sent to PMU, the starting-up signal is used to open the PMU, to cause the PMU to be powered to the application processor.
With reference in a first aspect, in the first possible implementation of first aspect, The microprocessor is received after the trigger signal of sensor collection, in addition to:
The microprocessor is according to the trigger signal of reception, and whether judge the trigger signal is that false touch is signaled;
Signaled if the trigger signal is not false touch, it is reliable starting-up signal to determine the trigger signal.
With reference to the first implementation of first aspect or first aspect, in second of possible implementation of first aspect,
The microprocessor is received after the trigger signal of sensor collection, in addition to:
The microprocessor is according to the trigger signal of reception, and whether judge the trigger signal is dither signal;It is described to judge whether the trigger signal is dither signal, including:
According to trigger signal of the microprocessor according to reception, determine that the trigger signal duration is more than or equal to preset time;
When the trigger signal duration being less than the preset time, it is determined that the trigger signal is dither signal, the microprocessor eliminates the dither signal.
With reference in a first aspect, either second of implementation of the first implementation of first aspect or first aspect, in the third possible implementation of first aspect,
The microprocessor receives the trigger signal of the sensor collection, including following at least one:The microprocessor receives the pressure signal of strain gauge collection, and the strain gauge is arranged on the terminal device;
Or,
The microprocessor receives the capacitance change signal of capacitance sensor collection, and the capacitance sensor is arranged on the terminal device;
Or,
The microprocessor receives the acceleration signal of acceleration transducer collection, and the acceleration transducer is arranged on the terminal device.
With reference to the first implementation of first aspect, in the 4th kind of possible implementation of first aspect,
The microprocessor is according to the trigger signal of reception, and whether judge the trigger signal is that false touch is transmitted Number, including following at least one:
When the trigger signal that the microprocessor is received is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value;When the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
Or,
When the microprocessor is capacitance change signal according to the trigger signal of reception, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value;
When the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
Or,
When the microprocessor is acceleration signal according to the trigger signal of reception, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, the 3rd preparatory condition is more than or equal to default acceleration magnitude;
When the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.Second aspect of the present invention provides a kind of device of device power-up, including receiver, processor, transmitter;
The receiver receives sensor and collects trigger signal;
The receiver obtains the state of application processor, and gives the processor by the state transfer of the application processor;
The processor obtains the state of the application processor, and the state of the application processor includes resting state, working condition or off-mode;
When the state of the application processor is off-mode, the processor is according to the trigger signal of reception, starting-up signal is sent to PMU by the transmitter, the starting-up signal is used to open the PMU, to cause the PMU to be powered to the application processor.
With reference to second aspect, in the first possible implementation of second aspect,
The processor includes false triggering signal judging unit: The false triggering signal judging unit, for the trigger signal according to reception, whether be false touch signal, signaled if the trigger signal is not false touch, it is determined that the trigger signal is reliable starting-up signal if judging the trigger signal.
With reference to the first implementation of second aspect or second aspect, in second of possible implementation of second aspect,
The processor includes shake judging unit;
The shake judging unit, whether for the trigger signal according to reception, it is dither signal to judge the trigger signal;The shake judging unit, including:
Time judgment module, for the trigger signal according to reception, determine that the trigger signal duration is more than or equal to preset time, when the trigger signal duration being less than the preset time, it is dither signal then to determine the trigger signal, and the microprocessor eliminates the dither signal.
With reference to second of implementation of second aspect, either the first implementation of second aspect or second aspect, in the third possible implementation of second aspect,
The receiver includes following at least one receiving unit;
The receiver includes following at least one receiving unit;
First receiving unit, the pressure signal for receiving strain gauge collection, the strain gauge is arranged on the terminal device;
Or,
Second receiving unit, the capacitance change signal for receiving capacitance sensor collection, the capacitance sensor is arranged on the terminal device;
Or,
3rd receiving unit, the acceleration signal for receiving acceleration transducer collection, the acceleration transducer is arranged on the terminal device.
With reference to the first implementation of second aspect, in the 4th kind of possible implementation of second aspect,
The false triggering signal judging unit includes following at least one false touch signalling judge module:First false touch signalling judge module, for when the trigger signal of reception is pressure signal, judging whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to pre- If pressure value, when the stress signal size meet the first preparatory condition when, the pressure signal be not false touch signal;
Or,
Second false touch signalling judge module, for when the trigger signal of reception is capacitance change signal, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
Or,
3rd false touch signalling judge module, for when the trigger signal of reception is acceleration signal, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
The third aspect of the present invention provides a kind of terminal device, including sensor, application processor, PMU, microprocessor;
The sensor trigger collection signal, and send the trigger signal to the microprocessor;The microprocessor receives the trigger signal of the sensor collection, and obtains the state of the application processor, and the state of the application processor includes resting state, working condition or off-mode;And when the state of the application processor is off-mode, the microprocessor sends starting-up signal according to the trigger signal of reception to the PMU;
The PMU, powers for receiving starting-up signal, and to the application processor;The application processor, for receiving starting-up signal.
With reference to the third aspect, in the first possible implementation of the third aspect,
The microprocessor is additionally operable to,
According to the trigger signal of reception, whether be false touch signal, signaled if the trigger signal is not false touch, it is determined that the trigger signal is reliable starting-up signal if judging the trigger signal.
With reference to the first implementation of the third aspect or first aspect, in second of possible implementation of the third aspect,
The microprocessor is additionally operable to: Whether according to the trigger signal of reception, it is dither signal to judge the trigger signal,
It is described to judge whether the trigger signal is that dither signal includes:
According to the trigger signal of reception, determine that the trigger signal duration is more than or equal to preset time;When the trigger signal duration being less than the preset time, it is determined that the trigger signal is dither signal, the microprocessor eliminates the dither signal.
With reference to second of implementation of the third aspect, either the first implementation of the third aspect or the third aspect, in the third possible implementation of first aspect,
The sensor includes:Strain gauge, the strain gauge is used to gather pressure signal, and the strain gauge is arranged on the terminal device;
Or,
The sensor includes:Capacitance sensor, the capacitance sensor is used to gather capacitance change signal, and the capacitance sensor is arranged on the terminal device;
Or,
The sensor includes:Acceleration transducer, the acceleration transducer is used to gather acceleration signal, and the acceleration transducer is arranged on the terminal device.
Second of implementation, the third implementation of the third aspect of the first implementation, the third aspect with reference to the third aspect, the third aspect, in the 4th kind of possible implementation of the third aspect,
The false triggering signal judging unit includes following at least one false touch signalling judge module:The microprocessor, it is additionally operable to when the trigger signal of reception is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value, when the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
Or,
The microprocessor, it is additionally operable to when the trigger signal of reception is capacitance change signal, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
Or, The microprocessor, it is additionally operable to when the trigger signal of reception is acceleration signal, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention need not set physical button to start terminal device and apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, and it is the lightening of achievable terminal device to save above-mentioned reserved space.Brief description of the drawings is in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, the required accompanying drawing used in embodiment or description of the prior art will be briefly described below, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is a kind of method flow diagram of device power-up provided in an embodiment of the present invention;
A kind of method flow diagram for device power-up that Fig. 2 provides for another embodiment of the present invention;
The method flow diagram for the device power-up that Fig. 3 provides for another embodiment of the present invention;
Fig. 4 is a kind of structure chart of microprocessor provided in an embodiment of the present invention;
The structure drawing of device for the device power-up that Fig. 5 provides for another embodiment of the present invention;
The structure drawing of device for the device power-up that Fig. 6 provides for another embodiment of the present invention;
Fig. 7 is a kind of structural representation of terminal device provided in an embodiment of the present invention. Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.
The embodiment of the invention discloses a kind of device power-up method, referring to Fig. 1, Fig. 1 shows a kind of schematic flow sheet of device power-up method, starting-up method is applied to terminal device, in the present invention, terminal device can be the mobile terminal devices such as mobile phone, PAD, and the terminal device at least includes microprocessor, and method includes:Step 110:Microprocessor receives the trigger signal of sensor collection.
Step 120:Microprocessor obtains the state of application processor, and the state of application processor includes resting state, working condition or off-mode.
Step 130:When the state of application processor is off-mode, microprocessor sends starting-up signal, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor according to the trigger signal of reception to PMU.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention need not set physical button to start terminal device and apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, and it is the lightening of achievable terminal device to save above-mentioned reserved space.
Another embodiment of the present invention discloses a kind of method of device power-up, referring to Fig. 2, and Fig. 2 shows the schematic flow sheet of device power-up method, and method is applied to terminal device, and the terminal device at least includes microprocessor Device, method includes:
Step 210:Microprocessor receives the trigger signal of sensor collection.
Microprocessor receives the pressure signal of strain gauge collection, and strain gauge is set on the terminal device;Or, microprocessor receives the capacitance change signal of capacitance sensor collection, capacitance sensor is set on the terminal device;Or, microprocessor receives the acceleration signal of acceleration transducer collection, acceleration transducer is set on the terminal device.
Pressure sensor is provided with the casing of terminal device, microprocessor receives the pressure signal on pressure sensor, judges whether pressure value meets the pressure value pre-set, when pressure signal, which is met, pre-sets pressure value, pressure signal is trigger signal.In other embodiments of the present invention, capacitance sensor can also be set, capacitance sensor is set on the casing of terminal device, microprocessor receives the capacitance change signal on capacitance sensor, judge whether the value of capacitance change signal meets the value pre-set, when meeting the value pre-set, capacitance change signal is trigger signal.One specific signal acquisition region can be set on the casing of terminal device, the pressure sensor or capacitance sensor for detecting trigger signal are provided with signal acquisition region, the trigger signal collected in a specific power supply signal pickup area, power supply signal pickup area can be such as set to be used for the power supply for starting terminal device on the casing of terminal device;Or, touch-screen can be provided with the terminal device, touch-screen is provided with pressure sensor or capacitance sensor, trigger signal can be the signal detected on touch-screen, the trigger signal collected in a specific power supply signal pickup area, power supply signal pickup area can be such as set to be used for the power supply for starting terminal device on the touchscreen.
In other embodiments of the invention, acceleration transducer is also provided with the casing of terminal device, microprocessor receives the acceleration magnitude on acceleration transducer, judge whether acceleration magnitude meets the numerical value pre-set, when acceleration magnitude, which is met, pre-sets numerical value, acceleration magnitude signal is trigger signal.
Step 220:Microprocessor is according to the trigger signal of reception, and whether judge trigger signal is that false touch is signaled;Signaled if trigger signal is not false touch, it is determined that trigger signal is reliable starting-up signal.
When the trigger signal that microprocessor is received is pressure signal, judge whether the size of pressure signal meets the first preparatory condition, first preparatory condition is that, more than or equal to default pressure value, when the size of stress signal meets the first preparatory condition, pressure signal is not that false touch is signaled;
Or, microprocessor is when according to the trigger signal of reception being capacitance change signal, judge whether the size of capacitance change signal meets the second preparatory condition, the second preparatory condition is more than or equal to default capacitance variations Value, when capacitance variations value meets the second preparatory condition, capacitance change signal is not that false touch is signaled;Or, when microprocessor is acceleration signal according to the trigger signal of reception, judge whether the size of acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when acceleration magnitude meets three preparatory conditions, acceleration signal is not that false touch is signaled.
Wherein, the first preparatory condition, the second preparatory condition, the 3rd preparatory condition can be set according to actual needs, not limited herein.
Step 230:Microprocessor obtains the state of application processor, and the state of application processor includes resting state, working condition or off-mode.
Step 240:When the state of application processor is off-mode, microprocessor sends starting-up signal, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor according to the trigger signal of reception to PMU.
In other embodiments of the invention, it is above-mentioned determine whether false touch signal when, microcontroller can be connected with right-hand man's sensor, it is that left hand or the right hand grip the terminal devices such as mobile phone that right-hand man's sensor, which is used for detection, after pressure sensor or capacitance sensor collect trigger signal, microprocessor can detect whether terminal device is hand holding state according to trigger signal, if hand holding state, then starting-up signal is sent to PMU, boot up operation, or, application processor in a dormant state when, wake-up signal is sent to PMU, carry out wake operation, if not hand holding state, then it is considered false triggering.
Further, microcontroller can also be connected with acceleration transducer, after pressure sensor or capacitance sensor collect trigger signal, microprocessor detects whether it is hand-held posture by acceleration transducer, if, then boot up or wake operation, if it is not, then being considered false triggering.Further, microcontroller can also connect acceleration transducer device, gyroscope, compass, when the data of three sensors meet certain gesture, when such as picking up the posture taken pictures or the posture picked up suddenly from desktop, then it is considered reliable starting-up signal, operation is booted up, if do not met, then it is assumed that be false triggering.
In addition, microcontroller can also be with MIC (microphone, microphone)With loudspeaker connection, after pressure sensor or capacitance sensor collect trigger signal, microprocessor sends sound to notify user, if after user responds with voice response or by other sensors, terminal device is just booted up or wake operation, if it is not, then being considered false triggering.
Microcontroller can also be connected with touch-screen, when the stroke on touch-screen meets the stroke pre-set When, terminal device is just booted up or wake operation, furthermore it is also possible to be confirmed whether it is holding normal attitude with reference to acceleration transducer or right-hand man's sensor, if it is not, then being considered false triggering.
Microcontroller connects audio codec(Codec), when vocal print is according to predetermined vocal print generation, terminal device is just booted up or wake operation, if it is not, then being considered false triggering.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention need not set physical button to start terminal device and apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, and it is the lightening of achievable terminal device to save above-mentioned reserved space.
Further, due to no physical button, so the terminal device in the preparation can be without reserving key opening, therefore the terminal device is a completely enclosed equipment, and the equipment can reach the effect of waterproof.
The embodiment of the invention discloses a kind of device power-up method, referring to Fig. 3, Fig. 3 shows a kind of flow chart of device power-up method, and method is applied to terminal device, and the terminal device at least includes microprocessor, and method includes:
Step 310:Microprocessor receives the trigger signal of sensor collection.
Trigger signal can be pressure signal, capacitance change signal, acceleration signal of sensor collection etc..Microprocessor receives the pressure signal of strain gauge collection, and strain gauge is set on the terminal device;Or, microprocessor receives the capacitance change signal of capacitance sensor collection, capacitance sensor is set on the terminal device;Or, microprocessor receives the acceleration signal of acceleration transducer collection, acceleration transducer is set on the terminal device.
Pressure sensor is provided with the casing of terminal device, microprocessor receives the pressure signal on pressure sensor, judges whether pressure value meets the pressure value pre-set, pressure is pre-set when pressure signal is met During value, pressure signal is trigger signal.In other embodiments of the present invention, capacitance sensor can also be set, capacitance sensor is set on the casing of terminal device, microprocessor receives the capacitance change signal on capacitance sensor, judge whether the value of capacitance change signal meets the value pre-set, when meeting the value pre-set, capacitance change signal is trigger signal.One specific signal acquisition region can be set on the casing of terminal device, the pressure sensor or capacitance sensor for detecting trigger signal are provided with signal acquisition region, the trigger signal collected in a specific power supply signal pickup area, power supply signal pickup area can be such as set to be used for the power supply for starting terminal device on the casing of terminal device;Or, touch-screen can be provided with the terminal device, touch-screen is provided with pressure sensor or capacitance sensor, trigger signal can be the signal detected on touch-screen, the trigger signal collected in a specific power supply signal pickup area, power supply signal pickup area can be such as set to be used for the power supply for starting terminal device on the touchscreen.
In other embodiments of the invention, acceleration transducer is also provided with the casing of terminal device, microprocessor receives the acceleration magnitude on acceleration transducer, judge whether acceleration magnitude meets the numerical value pre-set, when acceleration magnitude, which is met, pre-sets numerical value, acceleration magnitude signal is trigger signal.
Step 320:Microprocessor is according to the trigger signal of reception, and whether judge trigger signal is that false touch is signaled;Signaled if trigger signal is not false touch, it is determined that trigger signal is reliable starting-up signal.
When whether judge trigger signal is false triggering, it can be determined that whether be continuously detected trigger signal within the defined time, if it is not, then trigger signal is false triggering, if it is, the trigger signal detected is not the signal of false triggering.
From above-mentioned discussion, one specific power supply signal pickup area can be set on the casing or touch-screen of terminal device, if the trigger signal got is the signal in the power supply signal pickup area, such as the pressure signal on pressure sensor, then judge the trigger signal for power supply trigger signal, in addition it is above-mentioned to judge that the trigger signal is not false triggering, then trigger signal can be obtained for reliable starting-up signal.
Step 330:Microprocessor is according to the trigger signal of reception, and whether judge trigger signal is dither signal.Wherein, whether judge trigger signal is dither signal, including:
According to trigger signal of the microprocessor according to reception, determine that the trigger signal duration is more than or equal to preset time;When the trigger signal duration being less than preset time, it is determined that trigger signal is dither signal, microprocessor eliminates dither signal.
Wherein, the order of step 320 and step 330 is not limited, that is to say, that can first judge to receive The trigger signal arrived whether dither signal, if not then continue judge the signal whether be false touch signalling.
Step 340:Microprocessor obtains the state of application processor, and the state of application processor includes resting state, working condition or off-mode.
Step 350:When the state of application processor is off-mode, microprocessor sends starting-up signal, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor according to the trigger signal of reception to PMU.
PMU is provided with terminal device(Power Management Unit, PMU), after PMU receives reliable starting-up signal, start the power supply of terminal device.
Further, after the power supply of terminal device is started, the application microprocessor AP of terminal device is started
( Application Processor )。
It should be noted that when terminal device is in open state, the application microprocessor AP of terminal device can be directly initiated according to trigger signal.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention need not set physical button to start terminal device and apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, and it is the lightening of achievable terminal device to save above-mentioned reserved space.
Further, due to no physical button, so the terminal device in the preparation can be without reserving key opening, therefore the terminal device is a completely enclosed equipment, and the equipment can reach the effect of waterproof.
Further, the embodiment of the present invention may determine that whether the trigger signal of acquisition is reliable starting-up signal, if it is, corresponding power initiation step is carried out, if it is not, then at not to trigger signal Reason, can effectively avoid the maloperation of trigger signal.
You need to add is that, above-described embodiment is illustrated exemplified by starting shooting, in other embodiments, and trigger signal can also be standby wakeup signal or off signal.When terminal device is in holding state, above-mentioned microprocessor is after judging above-mentioned trigger signal for reliable standby wakeup signal, according to the power supply of standby wakeup signal enabling terminal device.Or, when terminal device is in holding state, above-mentioned microprocessor is after judging above-mentioned trigger signal for reliable off signal, the power supply for equipment of being closed a terminal according to off signal.
Referring to Fig. 4, the embodiment of the present invention provides a kind of device of device power-up, including receiver U110, processor U120, transmitter U130.The microprocessor is connected with sensor U200, application processor U300, PMU U400 respectively.
Receiver U110 receives the trigger signal of sensor U200 collections, and trigger signal is transferred into processor U120;
Receiver U110 obtains application processor U300 state, and gives processor U120 by application processor U300 state transfer;
Processor U120 obtains application processor U300 state, and application processor U300 state includes resting state, working condition or off-mode;
When application processor U300 state is off-mode, processor U120 is according to the trigger signal of reception, starting-up signal is sent to PMU U400 by transmitter U130, starting-up signal is used for power-on administrative unit U400, to cause PMU U400 to be powered to application processor U300.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention need not set physical button to start terminal device and apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, and saving above-mentioned reserved space can be real Now terminal device is lightening.
Further, in other embodiments of the invention, referring to Fig. 5, above-mentioned processor U120 includes false triggering signal judging unit U121, false triggering signal judging unit U121, whether for the trigger signal according to reception, it is that false touch is signaled to judge trigger signal, signaled if trigger signal is not false touch, it is determined that trigger signal is reliable starting-up signal.
Further, in other embodiments of the invention, referring to Fig. 6, above-mentioned processor U120 includes shake judging unit U122;Judging unit is shaken, whether for the trigger signal according to reception, it is dither signal to judge the trigger signal;Shake judging unit, including time judgment module;
Time judgment module, for the trigger signal according to reception, determine that the trigger signal duration is more than or equal to preset time, when the trigger signal duration being less than the preset time, it is dither signal then to determine the trigger signal, and the microprocessor eliminates the dither signal.
Further, in other embodiments of the invention, above-mentioned receiver U110 includes following at least one receiving unit;
First receiving unit, the pressure signal for receiving strain gauge collection, the strain gauge is arranged on the terminal device;
Or,
Second receiving unit, the capacitance change signal for receiving capacitance sensor collection, the capacitance sensor is arranged on the terminal device;
Or,
3rd receiving unit, the acceleration signal for receiving acceleration transducer collection, the acceleration transducer is arranged on the terminal device.
Further, in other embodiments of the invention, above-mentioned false triggering signal judging unit U121 includes following at least one false touch signalling judge module:
First false touch signalling judge module, for when the trigger signal of reception is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value, when the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
Or, Second false touch signalling judge module, for when the trigger signal of reception is capacitance change signal, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
Or,
3rd false touch signalling judge module, for when the trigger signal of reception is acceleration signal, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
A kind of terminal device, including sensor U200, application processor U300, PMU U400 are provided referring to Fig. 7, the embodiment of the present invention;Terminal device is additionally provided with microprocessor U100, and microprocessor U100 is connected with sensor U200, PMU U400 respectively;Microprocessor U100 includes receiver U110, processor U120, transmitter U130.
Sensor U200 trigger collection signals, and send trigger signal to microprocessor U100;Microprocessor U100 receives the trigger signal of sensor U200 collections, and obtains application processor
U300 state, application processor U300 state includes resting state, working condition or off-mode;And when application processor U300 state is off-mode, microprocessor U100 sends starting-up signal according to the trigger signal of reception to PMU U400;
PMU U400, powers for receiving starting-up signal, and to application processor U300;Application processor U300, for receiving starting-up signal.
Terminal device in the embodiment of the present invention includes sensor, microprocessor (Micro Control Unit), PMU, and application processor.The state of application processor includes resting state, working condition or off-mode, and when application processor is in off-mode, terminal device is off-mode.Method provided in an embodiment of the present invention, no matter which kind of state application processor is in, microprocessor and sensor can be constantly in working condition, therefore, even if the state of application processor is off-mode, microprocessor can also obtain the trigger signal of sensor collection, and send starting-up signal to PMU according to the trigger signal of reception, starting-up signal is used for power-on administrative unit, to cause PMU to be powered to application processor.Therefore, when application processor is in off-mode, starting-up method provided in an embodiment of the present invention Physical button need not be set to start terminal device to apply accordingly, because the terminal device is without complicated physical button, therefore terminal device is reserved with more spaces, it is the lightening of achievable terminal device to save above-mentioned reserved space.
Further, in other embodiments of the invention,
Microprocessor is additionally operable to,
According to the trigger signal of reception, whether be false touch signal, signaled if trigger signal is not false touch, it is determined that trigger signal is reliable starting-up signal if judging trigger signal.
Further, in other embodiments of the invention,
Microprocessor is additionally operable to:
Whether according to the trigger signal of reception, it is dither signal to judge trigger signal,
Whether judge trigger signal is that dither signal includes:
According to the trigger signal of reception, determine that the trigger signal duration is more than or equal to preset time;When the trigger signal duration being less than preset time, it is determined that trigger signal is dither signal, microprocessor eliminates dither signal.
Further, in other embodiments of the invention,
Sensor includes:Strain gauge, strain gauge is used to gather pressure signal, and strain gauge is set on the terminal device;
Or,
Sensor includes:Capacitance sensor, capacitance sensor is used to gather capacitance change signal, and capacitance sensor is set on the terminal device;
Or,
Sensor includes:Acceleration transducer, acceleration transducer is used to gather acceleration signal, and acceleration transducer is set on the terminal device.
Further, in other embodiments of the invention,
Microprocessor, it is additionally operable to when the trigger signal of reception is pressure signal, judge whether the size of pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value, when the size of stress signal meets the first preparatory condition, pressure signal is not that false touch is signaled;
Or, Microprocessor, it is additionally operable to when the trigger signal of reception is capacitance change signal, judge whether the size of capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when capacitance variations value meets the second preparatory condition, capacitance change signal is not that false touch is signaled;
Or,
Microprocessor, it is additionally operable to when the trigger signal of reception is acceleration signal, judge whether the size of acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when acceleration magnitude meets three preparatory conditions, acceleration signal is not that false touch is signaled.The embodiment of each in this specification is described by the way of progressive, what each embodiment was stressed be between the difference with other embodiment, each embodiment identical similar portion mutually referring to.For device disclosed in embodiment, because it is corresponded to the method disclosed in Example, so description is fairly simple, related part is referring to method part illustration.
It will be appreciated by those skilled in the art that accompanying drawing is the schematic diagram of a preferred embodiment, the module or flow in accompanying drawing are not necessarily implemented necessary to the present invention.
It will be appreciated by those skilled in the art that the module in device in embodiment can be distributed in the device of embodiment according to embodiment description, respective change can also be carried out and be disposed other than in one or more devices of the present embodiment.The module of above-described embodiment can be merged into a module, can also be further split into multiple submodule.
One of ordinary skill in the art will appreciate that all or part of processing in above-described embodiment method can be by program to instruct the hardware of correlation to complete, described program can be stored in a kind of computer-readable recording medium.
The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or using the present invention.A variety of modifications to these embodiments be will be apparent for those skilled in the art, and generic principles defined herein can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, the present invention is not intended to be limited to the embodiments shown herein, and is to fit to the most wide scope consistent with features of novelty with principles disclosed herein.

Claims (15)

  1. The starting-up method of claim kind equipment, it is characterised in that methods described is applied to terminal device, described
    The microprocessor obtains the state of application processor, and the state of the application processor includes resting state, working condition or off-mode;
    When the state of the application processor is off-mode, the microprocessor is according to the trigger signal of reception, starting-up signal is sent to PMU, the starting-up signal is used to open the PMU, to cause the PMU to be powered to the application processor.
    2nd, according to the method described in claim 1, it is characterised in that the microprocessor is received after the trigger signal of sensor collection, in addition to:
    The microprocessor is according to the trigger signal of reception, and whether judge the trigger signal is that false touch is signaled;
    Signaled if the trigger signal is not false touch, it is determined that the trigger signal is reliable starting-up signal.
    3rd, method according to claim 1 or 2, it is characterised in that the microprocessor is received after the trigger signal of sensor collection, in addition to:
    The microprocessor is according to the trigger signal of reception, and whether judge the trigger signal is dither signal;It is described to judge whether the trigger signal is dither signal, including:
    According to trigger signal of the microprocessor according to reception, determine that the trigger signal duration is more than or equal to preset time;
    When the trigger signal duration being less than the preset time, it is determined that the trigger signal is dither signal, the microprocessor eliminates the dither signal.
    4th, according to any described methods of claim 1-3, it is characterised in that the microprocessor receives the trigger signal of the sensor collection, including following at least one:
    The microprocessor receives the pressure signal of strain gauge collection, and the strain gauge is arranged on the terminal device; Or,
    The microprocessor receives the capacitance change signal of capacitance sensor collection, and the capacitance sensor is arranged on the terminal device;
    Or,
    The microprocessor receives the acceleration signal of acceleration transducer collection, and the acceleration transducer is arranged on the terminal device.
    5th, method according to claim 2, it is characterised in that the microprocessor is according to the trigger signal of reception, and whether be false touch signal, including following at least one if judging the trigger signal:
    When the trigger signal that the microprocessor is received is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value;When the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
    Or,
    When the microprocessor is capacitance change signal according to the trigger signal of reception, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value;
    When the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
    Or,
    When the microprocessor is acceleration signal according to the trigger signal of reception, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, the 3rd preparatory condition is more than or equal to default acceleration magnitude;
    When the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
    6th, a kind of device of device power-up, it is characterised in that including receiver, processor, transmitter;The receiver receives sensor and collects trigger signal;
    The receiver obtains the state of application processor, and gives the processor by the state transfer of the application processor;
    The processor obtains the state of the application processor, and the state of the application processor includes dormancy State, working condition or off-mode;
    When the state of the application processor is off-mode, the processor is according to the trigger signal of reception, starting-up signal is sent to PMU by the transmitter, the starting-up signal is used to open the PMU, to cause the PMU to be powered to the application processor.
    7th, device according to claim 6, it is characterised in that the processor includes false triggering signal judging unit:
    The false triggering signal judging unit, for the trigger signal according to reception, whether be false touch signal, signaled if the trigger signal is not false touch, it is determined that the trigger signal is reliable starting-up signal if judging the trigger signal.
    8th, the device according to claim 6 or 7, it is characterised in that the processor includes shake judging unit;
    The shake judging unit, whether for the trigger signal according to reception, it is dither signal to judge the trigger signal;The shake judging unit, including:
    Time judgment module, for the trigger signal according to reception, determine that the trigger signal duration is more than or equal to preset time, when the trigger signal duration being less than the preset time, it is dither signal then to determine the trigger signal, and the microprocessor eliminates the dither signal.
    9th, according to any described devices of claim 6-8, it is characterised in that the receiver includes following at least one receiving unit;
    First receiving unit, the pressure signal for receiving strain gauge collection, the strain gauge is arranged on the terminal device;
    Or,
    Second receiving unit, the capacitance change signal for receiving capacitance sensor collection, the capacitance sensor is arranged on the terminal device;
    Or,
    3rd receiving unit, the acceleration signal for receiving acceleration transducer collection, the acceleration transducer is arranged on the terminal device.
    10th, device according to claim 7, it is characterised in that the false triggering signal judging unit includes following at least one false touch signalling judge module: First false touch signalling judge module, for when the trigger signal of reception is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value, when the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
    Or,
    Second false touch signalling judge module, for when the trigger signal of reception is capacitance change signal, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
    Or,
    3rd false touch signalling judge module, for when the trigger signal of reception is acceleration signal, judge whether the size of the acceleration magnitude meets the 3rd preparatory condition, 3rd preparatory condition is more than or equal to default acceleration magnitude, when the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
    11st, a kind of terminal device, it is characterised in that including sensor, application processor, PMU, microprocessor;
    The sensor trigger collection signal, and send the trigger signal to the microprocessor;The microprocessor receives the trigger signal of the sensor collection, and obtains the state of the application processor, and the state of the application processor includes resting state, working condition or off-mode;And when the state of the application processor is off-mode, the microprocessor sends starting-up signal according to the trigger signal of reception to the PMU;
    The PMU, powers for receiving starting-up signal, and to the application processor;The application processor, for receiving starting-up signal.
    12nd, terminal device according to claim 11, it is characterised in that the microprocessor is additionally operable to,
    According to the trigger signal of reception, whether be false touch signal, signaled if the trigger signal is not false touch, it is determined that the trigger signal is reliable starting-up signal if judging the trigger signal.
    13rd, the terminal device according to claim 11 or 12, it is characterised in that the microprocessor It is additionally operable to:
    Whether according to the trigger signal of reception, it is dither signal to judge the trigger signal,
    It is described to judge whether the trigger signal is that dither signal includes:
    According to the trigger signal of reception, determine that the trigger signal duration is more than or equal to preset time;When the trigger signal duration being less than the preset time, it is determined that the trigger signal is dither signal, the microprocessor eliminates the dither signal.
    14th, according to any described terminal devices of claim 11-13, it is characterised in that
    The sensor includes:Strain gauge, the strain gauge is used to gather pressure signal, and the strain gauge is arranged on the terminal device;
    Or,
    The sensor includes:Capacitance sensor, the capacitance sensor is used to gather capacitance change signal, and the capacitance sensor is arranged on the terminal device;
    Or,
    The sensor includes:Acceleration transducer, the acceleration transducer is used to gather acceleration signal, and the acceleration transducer is arranged on the terminal device.
    15th, according to any described terminal device in claim 11-14, it is characterised in that
    The microprocessor, it is additionally operable to when the trigger signal of reception is pressure signal, judge whether the size of the pressure signal meets the first preparatory condition, first preparatory condition is more than or equal to default pressure value, when the size of the stress signal meets the first preparatory condition, the pressure signal is not that false touch is signaled;
    Or,
    The microprocessor, it is additionally operable to when the trigger signal of reception is capacitance change signal, judge whether the size of the capacitance change signal meets the second preparatory condition, second preparatory condition is more than or equal to default capacitance variations value, when the capacitance variations value meets the second preparatory condition, the capacitance change signal is not that false touch is signaled;
    Or,
    The microprocessor, is additionally operable to judge when the trigger signal of reception is acceleration signal whether the size of the acceleration magnitude meets the 3rd preparatory condition, and the 3rd preparatory condition is to add more than or equal to default Velocity amplitude, when the acceleration magnitude meets three preparatory conditions, the acceleration signal is not that false touch is signaled.
CN201380077956.5A 2013-11-22 2013-11-22 Boot method and apparatus for device and terminal device Pending CN105359058A (en)

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