CN101894036A - Mobile terminal and starting up method thereof - Google Patents

Abstract

The invention discloses a mobile terminal and a starting up method thereof. The starting up method comprises that: when the mobile terminal is in a power-off state, an acceleration sensor is triggered to send an interrupt signal to a baseband chip of the mobile terminal; and after the baseband chip receives the interrupt signal, the mobile terminal is started up. Through the technical scheme, the mobile terminal is quickly started up.

Description

Mobile terminal and starting method thereof

Technical Field

The invention relates to the application field of mobile terminals, in particular to a mobile terminal and a starting method thereof.

Background

With the rapid development of electronic technology, new functions and new technologies are continuously applied to mobile terminals, so that the functions of the mobile terminals are more and more powerful, infinite convenience is brought to the lives of people, and people also more and more depend on various powerful functions in the mobile terminals.

Fig. 1 is a schematic diagram illustrating a principle of a power-on circuit of a mobile terminal in the prior art, as shown in fig. 1, a switch is closed by pressing a power-on button for a long time to turn on a general mobile terminal, a baseband chip of the power-on circuit of the mobile terminal is triggered by a generated high level or low level, and the triggered baseband chip can start a power-on process of the mobile terminal. The method needs a certain startup response time to complete the process of starting the mobile terminal, and the response time in the prior art needs at least 2 seconds, so the startup process is slow and the startup operation is inconvenient.

Disclosure of Invention

In view of the above, the present invention is directed to a mobile terminal and a power-on method thereof, which can quickly implement power-on of the mobile terminal.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the invention discloses a mobile terminal, comprising: an acceleration sensor, a baseband chip; wherein,

the acceleration sensor is used for sending an interrupt signal to a baseband chip of the mobile terminal after being triggered when the mobile terminal is in a power-off state;

and the baseband chip is used for starting the mobile terminal after receiving the interrupt signal.

In the above-mentioned mobile terminal, the mobile terminal,

the baseband chip is further used for configuring a trigger mode of the acceleration sensor.

In the above-mentioned mobile terminal, the mobile terminal,

the acceleration sensor is further used for sending an interrupt signal to the baseband chip after being triggered when the mobile terminal is in a starting state;

the baseband chip is further used for prompting whether the mobile terminal is powered off or not after receiving the interrupt signal, closing the mobile terminal when the selection is yes, and continuously keeping the standby state of the mobile terminal when the selection is not yes.

In the mobile terminal, the battery of the mobile terminal is connected with the power supply pin VDD of the acceleration sensor through the low-voltage-difference linear voltage stabilizer, and the battery supplies power to the acceleration sensor through the power supply pin VDD.

In the mobile terminal, the acceleration sensor comprises an electronic sensor and a controller,

the electronic inductor acquires triaxial data of the current mobile terminal in real time, converts the triaxial data from analog data into digital data and sends the digital data to the controller;

and the controller calculates the acceleration value of the rapid shaking of the mobile terminal and the average value of the acceleration values, and sends an interrupt signal to the on-off interface of the baseband chip through the interrupt output port of the acceleration sensor when the average value of the acceleration exceeds the acceleration threshold value.

The invention also discloses a starting method of the mobile terminal, which comprises the following steps:

when the mobile terminal is in a power-off state, the acceleration sensor is triggered and then sends an interrupt signal to a baseband chip of the mobile terminal;

and after the baseband chip receives the interrupt signal, starting the mobile terminal.

In the above method, when the mobile terminal is in a power-off state, before the step of sending the interrupt signal to the baseband chip of the mobile terminal after the acceleration sensor is triggered, the method further includes:

and configuring a trigger mode of an acceleration sensor of the mobile terminal.

In the method, the triggering mode for configuring the acceleration sensor of the mobile terminal is specifically as follows:

the baseband chip of the mobile terminal stores a preset acceleration threshold value, actions required to be executed by a controller of the acceleration sensor when the acceleration of the mobile terminal exceeds the threshold value and the corresponding relation of the preset acceleration threshold value and the actions to be executed by the controller of the acceleration sensor into a memory of the acceleration sensor through a communication interface of the baseband chip of the mobile terminal and a communication interface of the acceleration sensor.

In the method, after the acceleration sensor is triggered, the sending of the interrupt signal to the baseband chip of the mobile terminal specifically includes:

the method comprises the steps that an electronic inductor of an acceleration sensor acquires triaxial data of a current mobile terminal in real time, converts the triaxial data from analog data into digital data and then sends the digital data to a controller; the controller calculates an acceleration value of the rapid shaking of the mobile terminal and an average value of the acceleration values, and when the acceleration average value exceeds an acceleration threshold value, an interrupt signal is sent to a power on/off interface of a baseband chip of the mobile terminal through an interrupt output port of the acceleration sensor.

In the above method, the method further comprises:

when the mobile terminal is in a starting state, the acceleration sensor is triggered and then sends an interrupt signal to a baseband chip of the mobile terminal;

and after receiving the interrupt signal, the baseband chip prompts whether to shut down the mobile terminal, when the selection is yes, the mobile terminal is closed, and when the selection is not, the standby state of the mobile terminal is continuously kept.

According to the mobile terminal and the starting method thereof, the acceleration sensor is used for triggering the baseband chip, so that the mobile terminal is started, and the starting speed of the mobile terminal is shortened due to the fact that the acceleration sensor has higher speeds of sensing and sending signals.

Drawings

FIG. 1 is a schematic diagram of a power-on circuit of a mobile terminal in the prior art;

fig. 2 is a schematic structural diagram of a mobile terminal of the present invention;

FIG. 3 is a flowchart illustrating a method for booting a mobile terminal according to the present invention;

FIG. 4 is a schematic diagram of a power-on circuit of the mobile terminal according to the present invention;

FIG. 5 is a three-dimensional coordinate system based on a plane of a mobile terminal according to the present invention;

fig. 6 is a flowchart illustrating a method for implementing power-off of a mobile terminal according to the present invention.

Detailed Description

The acceleration sensor is a sensor which can sense acceleration and convert the acceleration into a usable output signal, and is widely applied to notebook computers and intelligent mobile terminals; many intelligent mobile terminals on the market have acceleration sensors, and are mainly used for balance-type mobile terminal games, such as a balance ball, and switching between a horizontal screen and a vertical screen of the mobile terminal.

The invention just utilizes the acceleration sensor to realize the startup of the mobile terminal, and the basic idea of the invention is as follows: when the mobile terminal is in a power-off state, the acceleration sensor is triggered and then sends an interrupt signal to a baseband chip of the mobile terminal; and after the baseband chip receives the interrupt signal, starting the mobile terminal.

The invention is further described in detail below with reference to the drawings and the specific embodiments.

Fig. 2 is a schematic structural diagram of the mobile terminal of the present invention, and as shown in fig. 2, the mobile terminal includes: an acceleration sensor 21, a baseband chip 22; wherein,

the acceleration sensor 21 is used for sending an interrupt signal to the baseband chip 22 of the mobile terminal after being triggered when the mobile terminal is in a power-off state;

and the baseband chip 22 is used for starting the mobile terminal after receiving the interrupt signal.

The baseband chip 22 is further configured to configure a trigger mode of the acceleration sensor 21 of the mobile terminal.

The acceleration sensor 21 is further configured to send an interrupt signal to the baseband chip 22 of the mobile terminal after being triggered when the mobile terminal is in a power-on state;

the baseband chip 22 is further configured to prompt whether to shut down the mobile terminal after receiving the interrupt signal, and when the selection is yes, close the mobile terminal, and when the selection is no, continue to maintain the standby state of the mobile terminal.

The triggering mode of the baseband chip 22 configuring the acceleration sensor 21 of the mobile terminal specifically includes: the baseband chip 22 of the mobile terminal stores a preset acceleration threshold value, actions which need to be executed by the controller of the acceleration sensor 21 when the acceleration of the mobile terminal exceeds the threshold value and the corresponding relation of the actions and the actions into a memory of the acceleration sensor through a communication interface of the baseband chip 22 and the communication interface of the acceleration sensor 21;

the acceleration sensor 21 includes an electronic sensor and a controller, and after the acceleration sensor 21 is triggered, sending an interrupt signal to the baseband chip 22 of the mobile terminal specifically includes: the electronic inductor of the acceleration sensor 21 acquires triaxial data of the current mobile terminal in real time, converts the triaxial data from analog data into digital data and sends the digital data to the controller of the acceleration sensor 21; the controller calculates an acceleration value of the fast shaking of the mobile terminal and an average value of the acceleration values, and when the acceleration average value exceeds an acceleration threshold, sends an interrupt signal to the on-off interface of the baseband chip 22 of the mobile terminal through the interrupt output port of the acceleration sensor.

The invention provides a method for starting up a mobile terminal, fig. 3 is a flow chart illustrating the method for starting up the mobile terminal, and as shown in fig. 3, the method comprises the following steps:

step 301, configuring a trigger mode of an acceleration sensor of the mobile terminal;

specifically, fig. 4 is a schematic diagram illustrating a starting-up circuit of the mobile terminal according to the present invention, and as shown in fig. 4, a baseband chip of the mobile terminal configures a triggering manner of an acceleration sensor of the mobile terminal through a communication interface of the baseband chip and a communication interface of the acceleration sensor; the triggering mode of the acceleration sensor can be a starting triggering mode of the mobile terminal or a shutdown triggering mode of the mobile terminal; the triggering mode can be speed triggering, angle triggering and the like, and can be used as the triggering mode of the acceleration sensor as long as the triggering mode can achieve the purpose of triggering; the communication interface of the baseband chip and the communication interface of the acceleration sensor can be realized by a parallel interface or a serial interface; the configuration process is to store a preset acceleration threshold value, actions which need to be executed by a controller of the acceleration sensor when the acceleration of the mobile terminal exceeds the threshold value and the corresponding relation of the actions and the actions into a FLASH memory of the acceleration sensor; as shown in fig. 4, a battery of the mobile terminal is connected to a power supply pin VDD of the acceleration sensor through a Low dropout regulator (LDO), and the battery provides a voltage for the acceleration sensor through the power supply pin VDD, so that the acceleration sensor is still powered when the mobile terminal is in a shutdown state, and can work normally; after the battery is inserted into the mobile terminal, a reading program running on the acceleration sensor reads out a preset acceleration threshold value in the FLASH memory, actions to be executed by a controller of the acceleration sensor when the acceleration of the mobile terminal exceeds the threshold value and corresponding relations of the actions and the actions, and writes the actions into a register of the controller; the preset acceleration threshold is an empirical value of the acceleration of the mobile terminal.

In practical applications, if a simple triggering method is used, such as tilting the mobile terminal, there is a phenomenon that when the mobile terminal is in a power-off state, if the user unintentionally tilts the mobile terminal, the mobile terminal is powered on, but the subjective intention of the user is not to be powered on; therefore, in order to avoid the situation that the mobile terminal is powered on at the time of non-subjective intention caused by a simple triggering mode, a more complicated or unusual action, such as a mode of rapidly shaking the mobile terminal, is generally adopted as the triggering mode of the acceleration sensor.

Step 302, when the mobile terminal is in a power-off state, after the acceleration sensor is triggered, an interrupt signal is sent to a baseband chip of the mobile terminal;

specifically, fig. 5 is a three-dimensional coordinate system based on a plane of the mobile terminal, as shown in fig. 5, a Z axis is always perpendicular to the plane of the mobile terminal, and an X axis and a Y axis are always located on the plane of the mobile terminal and are perpendicular to each other, so as to form a three-dimensional coordinate system based on the plane of the mobile terminal; when the mobile terminal is in a shutdown state, a user quickly shakes the mobile terminal, the gravity acceleration of the mobile terminal generates components on an X axis, a Y axis and a Z axis, an electronic sensor of an acceleration sensor acquires three-axis data of the current gravity acceleration of the mobile terminal on the X axis, the Y axis and the Z axis of the mobile terminal in real time, the three-axis data is converted into digital data from analog data and then is sent to a controller of the acceleration sensor, the controller calculates the acceleration value of the quick shaking of the mobile terminal according to the data reported by the electronic sensor in real time and the interval of the reported data, the average value of the acceleration value is calculated after the electronic sensor does not report the data any more, when the average value of the acceleration exceeds the acceleration threshold, the controller determines that the action required to be executed when the acceleration threshold is exceeded is to send an interrupt signal to a baseband chip according to the corresponding relation stored in a register of the controller, therefore, the controller sends an interrupt signal to the on/off interface ONKEY of the baseband chip of the mobile terminal through the interrupt output port INT of the acceleration sensor.

Step 303, after receiving the interrupt signal, the baseband chip starts the mobile terminal;

specifically, after the baseband chip receives an interrupt signal sent by the acceleration sensor through a power on/off interface ONKEY of the baseband chip, the baseband chip starts a power on process; because the interrupt signal is a continuous level signal, after receiving the interrupt signal, the voltage regulator of the baseband chip starts to work, and then the main clock circuit starts to work; when the signal of the main clock circuit is stable, the reset circuit outputs a total reset signal, then the digital baseband signal processor starts to work and accesses a starting program of the mobile terminal, and when the software support of an operating system of the mobile terminal is obtained, the digital baseband signal processor outputs a starting maintaining signal, so that the starting of the mobile terminal is realized;

after the mobile terminal is started, the baseband chip of the mobile terminal modifies the value of the register of the interrupt output port INT of the acceleration sensor through the communication interface of the baseband chip and the communication interface of the acceleration sensor, so that the state of the interrupt output port is changed from high level to low level, and after the state of the interrupt output port is changed to low level, the interrupt output port INT stops sending an interrupt signal to the baseband chip, so that the interrupt signal can be sent out when the acceleration sensor is triggered next time.

The mobile terminal enters a standby state after being started, and when the mobile terminal needs to be closed, the method can further comprise the process of a shutdown method of the mobile terminal.

Specifically, fig. 6 is a schematic flow chart of a method for implementing shutdown of a mobile terminal according to the present invention, and as shown in fig. 6, the method for shutdown of a mobile terminal according to the present invention includes the following steps:

601, when the mobile terminal is in a starting state, after the acceleration sensor is triggered, sending an interrupt signal to a baseband chip of the mobile terminal;

specifically, when the mobile terminal is in a power-on state, a user wants to turn off the mobile terminal, namely, the mobile terminal is quickly shaken, and after the acceleration sensor is triggered, an interrupt signal is sent to a baseband chip of the mobile terminal; the specific process is the same as the booting process of the mobile terminal, please refer to step 302 after the user quickly shakes the mobile terminal.

Step 602, after receiving the interrupt signal, the baseband chip prompts whether to shut down the computer;

specifically, after receiving an interrupt signal sent by a controller of the acceleration sensor, a baseband chip of the mobile terminal pops up a prompt dialog box through a screen of the mobile terminal, so that a user can select whether to shut down the mobile terminal; if the selection is yes, the mobile terminal is closed, namely the baseband chip starts a timer, and in the timing process of the timer, a digital baseband system on the digital baseband signal processor controls a relevant hardware unit to stop working, and at the moment, a voltage regulator of the baseband chip still works; after the timer is timed out, the digital baseband signal processor stops working under the control of the digital baseband system, so that the startup maintaining signal of the mobile terminal is changed into low level, the voltage regulator of the baseband chip stops working, and the shutdown of the mobile terminal is realized; if not, the standby state of the mobile terminal is continuously maintained without any operation.

The starting method of the mobile terminal provided by the invention can exist in the same mobile terminal with the starting method realized by the starting button in the prior art, so that the mobile terminal has two starting realization methods; the method can also replace a starting method realized by using a starting button in the prior art, so that the method independently exists in the mobile terminal and is used as the only starting method of the mobile terminal. In addition, if the starting method of the mobile terminal provided by the invention is the only starting method of the mobile terminal, the invention also has the following beneficial effects: the acceleration sensor in the mobile terminal is used as equipment for triggering the baseband chip, and a starting button of the mobile terminal does not need to be independently arranged, so that the mainboard space of the mobile terminal and the number of devices used in production are saved, and the production cost of the mobile terminal is reduced.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents, improvements, etc. that are within the spirit and principle of the present invention should be included in the present invention.

Claims (10)

1. A mobile terminal, characterized in that the mobile terminal comprises: an acceleration sensor, a baseband chip; wherein,

the acceleration sensor is used for sending an interrupt signal to a baseband chip of the mobile terminal after being triggered when the mobile terminal is in a power-off state;

and the baseband chip is used for starting the mobile terminal after receiving the interrupt signal.

2. The mobile terminal of claim 1,

the baseband chip is further used for configuring a trigger mode of the acceleration sensor.

3. The mobile terminal according to claim 1 or 2,

the acceleration sensor is further used for sending an interrupt signal to the baseband chip after being triggered when the mobile terminal is in a starting state;

the baseband chip is further used for prompting whether the mobile terminal is powered off or not after receiving the interrupt signal, closing the mobile terminal when the selection is yes, and continuously keeping the standby state of the mobile terminal when the selection is not yes.

4. The mobile terminal according to claim 1 or 2, wherein the battery of the mobile terminal is connected to the power supply pin VDD of the acceleration sensor through the low dropout linear regulator, and the battery supplies power to the acceleration sensor through the power supply pin VDD.

5. The mobile terminal according to claim 1 or 2, wherein the acceleration sensor comprises an electronic sensor and a controller,

the electronic inductor acquires triaxial data of the current mobile terminal in real time, converts the triaxial data from analog data into digital data and sends the digital data to the controller;

and the controller calculates the acceleration value of the rapid shaking of the mobile terminal and the average value of the acceleration values, and sends an interrupt signal to the on-off interface of the baseband chip through the interrupt output port of the acceleration sensor when the average value of the acceleration exceeds the acceleration threshold value.

6. A starting method of a mobile terminal is characterized by comprising the following steps:

when the mobile terminal is in a power-off state, the acceleration sensor is triggered and then sends an interrupt signal to a baseband chip of the mobile terminal;

and after the baseband chip receives the interrupt signal, starting the mobile terminal.

7. The method according to claim 6, wherein before sending the interrupt signal to the baseband chip of the mobile terminal after the acceleration sensor is triggered when the mobile terminal is in the power-off state, the method further comprises:

and configuring a trigger mode of an acceleration sensor of the mobile terminal.

8. The method according to claim 7, wherein the triggering manner for configuring the acceleration sensor of the mobile terminal is specifically:

the baseband chip of the mobile terminal stores a preset acceleration threshold value, actions required to be executed by a controller of the acceleration sensor when the acceleration of the mobile terminal exceeds the threshold value and the corresponding relation of the preset acceleration threshold value and the actions to be executed by the controller of the acceleration sensor into a memory of the acceleration sensor through a communication interface of the baseband chip of the mobile terminal and a communication interface of the acceleration sensor.

9. The method according to claim 6, wherein the sending of the interrupt signal to the baseband chip of the mobile terminal after the acceleration sensor is triggered specifically comprises:

the method comprises the steps that an electronic inductor of an acceleration sensor acquires triaxial data of a current mobile terminal in real time, converts the triaxial data from analog data into digital data and then sends the digital data to a controller; the controller calculates an acceleration value of the rapid shaking of the mobile terminal and an average value of the acceleration values, and when the acceleration average value exceeds an acceleration threshold value, an interrupt signal is sent to a power on/off interface of a baseband chip of the mobile terminal through an interrupt output port of the acceleration sensor.

10. The method of any of claims 6 to 9, further comprising:

when the mobile terminal is in a starting state, the acceleration sensor is triggered and then sends an interrupt signal to a baseband chip of the mobile terminal;

and after receiving the interrupt signal, the baseband chip prompts whether to shut down the mobile terminal, when the selection is yes, the mobile terminal is closed, and when the selection is not, the standby state of the mobile terminal is continuously kept.

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