Hand-held mobile terminal standby method, microprocessor and mobile phone
A mobile terminal and microprocessor technology, applied in power management, climate sustainability, sustainable communication technology, etc., can solve problems such as waste of resources, cumbersome operation, etc., and achieve the effect of increasing service life and reducing frequency of use
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Embodiment 1
[0030] The flow of the standby method for the handheld mobile terminal disclosed in Embodiment 1 of the present invention is as follows: figure 1 shown, including:
[0031] Step S11, determining that the handheld mobile terminal is in a no-operation state;
[0032] Firstly, it needs to be determined whether the terminal is no longer required to be used, and only when the terminal is not required to be used, the standby operation will be performed. The process of determining that the terminal is in the no-operation state is usually to detect whether a key is pressed or whether the screen is touched. When the key of the mobile phone is not pressed or the screen is not touched, it is determined that the mobile phone enters the no-operation state.
[0033] Step S12, acquiring physical state parameters of the terminal;
[0034] The physical state parameter can be one or any combination of motion state parameters, position state parameters or temperature state parameters.
[0035...
Embodiment 2
[0040] The flow of the standby method for the handheld mobile terminal disclosed in this embodiment is as follows: figure 2 shown, including:
[0041] Step S21, determining that the handheld mobile terminal is in a no-operation state;
[0042] Step S22, obtaining the motion state parameters of the terminal;
[0043] Wherein, in this embodiment, the motion state parameter is the acceleration value of the terminal, and the preset standby condition is that the terminal acceleration changes from a non-zero value to 0, that is, it is judged whether the terminal changes from a motion state to a static state.
[0044] Step S23, storing the acceleration values of the terminal at the previous moment and the current moment;
[0045] Step S24, judging whether the current acceleration value of the terminal is 0, if yes, execute step S25, if not, execute step S27;
[0046] Step S25, judging whether the acceleration value at the last moment is 0, if yes, execute step S27, if not, exec...
Embodiment 3
[0055] The flow of the standby method for the handheld mobile terminal disclosed in this embodiment is as follows: image 3 shown, including:
[0056] Step S31, determining that the handheld mobile terminal is in a no-operation state;
[0057] Step S32, obtaining the motion state parameters of the terminal;
[0058] In this embodiment, the preset standby condition is still that the acceleration of the terminal changes from a non-zero value to 0, and it is still judged whether the terminal changes from a moving state to a stationary state.
[0059] Step S33, storing the acceleration values of the terminal at the previous moment and the current moment;
[0060] Step S34, judging whether the current acceleration value of the terminal is 0, if yes, execute step S35, if not, execute step S39;
[0061] Step S35, judging whether the acceleration value at the last moment is 0, if yes, then execute step S39, if not, then execute step S36;
[0062] Step S36, wait for a preset time...
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