CN107728771B - Virtual unlocking voltage control method of mobile terminal, mobile terminal and storage medium - Google Patents

Abstract

The invention discloses a virtual unlocking voltage control method of a mobile terminal, the mobile terminal and a storage medium, wherein the method comprises the following steps: when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface; when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface; and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply. According to the invention, virtual unlocking is carried out by switching the multi-display interface virtual unlocking of the mobile terminal into the single display interface in sequence, so that the power supply voltage is controlled to be reduced from the maximum power supply voltage to the preset voltage, and the power consumption of the mobile terminal is effectively reduced.

Description

Virtual unlocking voltage control method of mobile terminal, mobile terminal and storage medium

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a virtual unlocking voltage control method of a mobile terminal, the mobile terminal and a storage medium.

Background

With the development of the mobile terminal technology, the virtual unlocking of the mobile terminal can bring a novel experience to a user, the virtual unlocking is called virtual environment unlocking, the unlocking is not directly performed through a touch screen of the mobile terminal generally, but an unlocking environment is arranged on the touch screen, the unlocking can be performed by finding an unlocking code in the unlocking environment, and multi-interface unlocking can be realized.

However, when the mobile terminal performs virtual unlocking on multiple display interfaces simultaneously, the power supply voltage of the mobile terminal is the maximum power supply voltage, and when power is supplied at the maximum power supply voltage all the time, the power consumption of the mobile terminal is increased.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method for controlling virtual unlocking voltage of a mobile terminal, a mobile terminal and a storage medium, aiming at switching virtual unlocking of multiple display interfaces of the mobile terminal into a single display interface to perform virtual unlocking in sequence, so as to control the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage, and effectively reduce the power consumption of the mobile terminal.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a virtual unlocking voltage control method of a mobile terminal comprises the following steps:

when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface;

when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface;

and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply.

According to the virtual unlocking voltage control method of the mobile terminal, the maximum power supply voltage is the power supply voltage corresponding to the virtual unlocking of the multi-display interface, and the preset voltage is smaller than the maximum power supply voltage.

The virtual unlocking voltage control method of the mobile terminal comprises the following steps of judging whether the mobile terminal is virtually unlocked on a multi-display interface when the mobile terminal is detected to be virtually unlocked:

presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

when the mobile terminal is detected to be virtually unlocked, whether the mobile terminal is virtually unlocked through a multi-display interface is judged through detecting a voltage value of power supply.

The virtual unlocking voltage control method of the mobile terminal, wherein when the mobile terminal is judged to be virtually unlocked by multiple display interfaces, the virtual unlocking of the multiple display interfaces is switched to the virtual unlocking of a single display interface, and the virtual unlocking method comprises the following steps:

when the mobile terminal is judged to be virtually unlocked through a multi-display interface, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be virtually unlocked in sequence;

and when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is carried out.

The virtual unlocking voltage control method for the mobile terminal, wherein when the mobile terminal performs virtual unlocking on a single display interface, the step of controlling the power supply voltage to be reduced from the maximum power supply voltage to the preset voltage for power supply comprises the following steps:

when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

and the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply.

A mobile terminal comprising a processor, and a memory coupled to the processor, the memory storing a mobile terminal virtual unlock voltage control program that when executed by the processor performs the steps of:

when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface;

when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface;

and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply.

The mobile terminal, wherein when the virtual unlocking voltage control program of the mobile terminal is executed by the processor, the following steps are further implemented:

presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

when the mobile terminal is detected to be virtually unlocked, whether the mobile terminal is virtually unlocked through a multi-display interface is judged through detecting a voltage value of power supply.

The mobile terminal, wherein when the virtual unlocking voltage control program of the mobile terminal is executed by the processor, the following steps are further implemented:

when the mobile terminal is judged to be virtually unlocked through a multi-display interface, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be virtually unlocked in sequence;

and when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is carried out.

The mobile terminal, wherein when the virtual unlocking voltage control program of the mobile terminal is executed by the processor, the following steps are further implemented:

when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

and the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply.

A storage medium stores a mobile terminal virtual unlocking voltage control program, and the mobile terminal virtual unlocking voltage control program realizes the mobile terminal virtual unlocking voltage control method when being executed by a processor.

The invention discloses a virtual unlocking voltage control method of a mobile terminal, the mobile terminal and a storage medium, wherein the method comprises the following steps: when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface; when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface; and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply. According to the invention, virtual unlocking is carried out by switching the multi-display interface virtual unlocking of the mobile terminal into the single display interface in sequence, so that the power supply voltage is controlled to be reduced from the maximum power supply voltage to the preset voltage, and the power consumption of the mobile terminal is effectively reduced.

Drawings

Fig. 1 is a flowchart of a virtual unlock voltage control method of a mobile terminal according to a first preferred embodiment of the present invention.

Fig. 2 is a functional block diagram of a preferred embodiment of the mobile terminal of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

Referring to fig. 1, fig. 1 is a flowchart illustrating a virtual unlock voltage control method for a mobile terminal according to a first preferred embodiment of the present invention. As shown in fig. 1, a virtual unlocking voltage control method for a mobile terminal includes the following steps:

step S100, when the mobile terminal is detected to be virtually unlocked, whether the mobile terminal is virtually unlocked through a multi-display interface is judged.

In the embodiment of the invention, the power supply voltage corresponding to the virtual unlocking of the multi-display interface is the maximum power supply voltage, and the preset voltage is less than the maximum power supply voltage.

When the mobile terminal is virtually unlocked, the power consumption of the mobile terminal is increased, when the mobile terminal is virtually unlocked on a multi-display interface, the power supply voltage of the mobile terminal is the maximum power supply voltage V max (n), and the power consumption is maximally increased by the maximum power supply voltage V max (n); when the mobile terminal is virtually unlocked on a single display interface, the power supply voltage of the mobile terminal is a preset voltage V (n); the preset voltage V (n) can maximally reduce power consumption; the power supply is carried out by using a preset voltage V (n), namely the voltage required by virtual unlocking of a single display interface of the mobile terminal is set as V (n), the unlocking of multiple display interfaces can be completed by using the maximum power supply voltage V max (n) (the maximum virtual unlocking voltage), the unlocking of the single display interface can be completed by using the preset voltage V (n), and the virtual unlocking of the multiple display interfaces can be sequentially carried out by using the single display interface (namely, the virtual unlocking of the single display interface is combined to achieve the same effect).

Specifically, step S100 specifically includes the following steps:

s101, presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

s102, when the mobile terminal is detected to be virtually unlocked, whether the mobile terminal is virtually unlocked through a multi-display interface is judged through detecting a voltage value of power supply.

And S200, when the mobile terminal is judged to be the multi-display-interface virtual unlocking, switching the multi-display-interface virtual unlocking into single-display-interface virtual unlocking.

In the embodiment of the invention, when the mobile terminal detects that the current virtual unlocking is multi-display interface virtual unlocking by outputting a virtual unlocking interface data detection signal, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal; and the central processing unit executes the virtual unlocking switching instruction after receiving the instruction, and switches the virtual unlocking of the plurality of display interfaces into a single display interface to perform virtual unlocking in sequence for adjusting the power supply voltage of the mobile terminal.

Specifically, step S200 specifically includes the following steps:

s201, when the mobile terminal is judged to be virtually unlocked through a multi-display interface, sending a virtual unlocking switching instruction to a central processing unit of the mobile terminal;

s202, the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be sequentially virtually unlocked;

and S203, when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is performed.

And step S300, when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply.

In the embodiment of the invention, when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal; and the central processing unit executes the power supply voltage adjusting instruction after receiving the instruction, reduces the maximum power supply voltage V max (n) to a preset voltage V (n) for power supply, wherein V (n) is far less than the maximum power supply voltage V max (n), and effectively reduces the power consumption of the mobile terminal.

That is, specifically, step S300 includes the steps of:

s301, when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

and S302, the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply.

Of course, it can be understood by those skilled in the art that all or part of the processes in the method according to the above embodiments may be implemented by instructing relevant hardware (such as a processor, a controller, etc.) through a virtual unlocking voltage control program of the mobile terminal, where the program may be stored in a computer-readable storage medium, and the program may include the processes according to the above method embodiments when executed. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

Example two

An embodiment of the present invention further provides a mobile terminal, as shown in fig. 2, the mobile terminal of the embodiment of the present invention may be a mobile phone (or a tablet computer), where the mobile terminal of the embodiment includes a processor 10 and a memory 20 connected to the processor 10;

the memory 20 stores a mobile terminal virtual unlock voltage control program which, when executed by the processor 10, implements the steps of:

when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface;

when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface;

when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply; as described above.

The mobile terminal, wherein when the processor 10 executes the virtual unlocking voltage control program of the mobile terminal, the following steps are further implemented:

presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

when the mobile terminal is detected to be virtually unlocked, judging whether the mobile terminal is virtually unlocked through detecting a voltage value of power supply; as described above.

The mobile terminal, wherein when the processor 10 executes the virtual unlocking voltage control program of the mobile terminal, the following steps are further implemented:

when the mobile terminal is judged to be virtually unlocked through a multi-display interface, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be virtually unlocked in sequence;

when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is carried out; as described above.

The mobile terminal, wherein when the processor 10 executes the virtual unlocking voltage control program of the mobile terminal, the following steps are further implemented:

when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply; as described above.

EXAMPLE III

A storage medium, wherein the storage medium stores a mobile terminal virtual unlocking voltage control program, and the mobile terminal virtual unlocking voltage control program, when executed by a processor 10, implements the mobile terminal virtual unlocking voltage control method; as described above.

In summary, the present invention discloses a method for controlling a virtual unlocking voltage of a mobile terminal, the mobile terminal and a storage medium, wherein the method comprises: when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface; when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface; and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply. According to the invention, virtual unlocking is carried out by switching the multi-display interface virtual unlocking of the mobile terminal into the single display interface in sequence, so that the power supply voltage is controlled to be reduced from the maximum power supply voltage to the preset voltage, and the power consumption of the mobile terminal is effectively reduced.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (8)

1. A virtual unlocking voltage control method of a mobile terminal is characterized by comprising the following steps:

when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface;

the virtual unlocking is that an unlocking environment is set on the touch screen, and the virtual unlocking is performed after the virtual unlocking enters the unlocking environment and an unlocking code is found;

when the mobile terminal is detected to be virtually unlocked, judging whether the mobile terminal is virtually unlocked through a multi-display interface comprises the following steps:

presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

when the mobile terminal is detected to be virtually unlocked, judging whether the mobile terminal is virtually unlocked through detecting a voltage value of power supply;

when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface;

and when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply.

2. The method for controlling the virtual unlocking voltage of the mobile terminal according to claim 1, wherein a maximum power supply voltage is a power supply voltage corresponding to the virtual unlocking of the multi-display interface, and the preset voltage is smaller than the maximum power supply voltage.

3. The method for controlling the virtual unlocking voltage of the mobile terminal according to claim 1, wherein when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, the step of switching the virtual unlocking of the multiple display interfaces into the virtual unlocking of a single display interface comprises the following steps:

when the mobile terminal is judged to be virtually unlocked through a multi-display interface, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be virtually unlocked in sequence;

and when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is carried out.

4. The method for controlling the virtual unlocking voltage of the mobile terminal according to claim 3, wherein the step of controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply when the mobile terminal virtually unlocks the single display interface comprises the following steps:

when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

and the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply.

5. A mobile terminal comprising a processor and a memory coupled to the processor, the memory storing a mobile terminal virtual unlock voltage control program that when executed by the processor performs the steps of:

when the virtual unlocking of the mobile terminal is detected, judging whether the mobile terminal is virtually unlocked through a multi-display interface;

the virtual unlocking is that an unlocking environment is set on the touch screen, and the virtual unlocking is performed after the virtual unlocking enters the unlocking environment and an unlocking code is found;

when the mobile terminal is judged to be virtually unlocked through multiple display interfaces, switching the virtually unlocked multiple display interfaces into virtually unlocked single display interface;

when the mobile terminal performs virtual unlocking on a single display interface, controlling the power supply voltage to be reduced from the maximum power supply voltage to a preset voltage for power supply;

when the virtual unlocking voltage control program of the mobile terminal is executed by the processor, the following steps are also realized:

presetting a power supply voltage corresponding to virtual unlocking of multiple display interfaces as a maximum power supply voltage, and setting a power supply voltage corresponding to virtual unlocking of a single display interface as a preset voltage;

when the mobile terminal is detected to be virtually unlocked, whether the mobile terminal is virtually unlocked through a multi-display interface is judged through detecting a voltage value of power supply.

6. The mobile terminal of claim 5, wherein the mobile terminal virtual unlock voltage control program, when executed by the processor, further implements the steps of:

when the mobile terminal is judged to be virtually unlocked through a multi-display interface, a virtual unlocking switching instruction is sent to a central processing unit of the mobile terminal;

the central processing unit executes the virtual unlocking switching instruction, and virtually unlocks a plurality of display interfaces into a single display interface to be virtually unlocked in sequence;

and when the mobile terminal is judged to be virtually unlocked in a single display interface, no processing is carried out.

7. The mobile terminal of claim 6, wherein the mobile terminal virtual unlock voltage control program, when executed by the processor, further implements the steps of:

when the virtual unlocking of the mobile terminal is switched from virtual unlocking of a plurality of display interfaces to virtual unlocking of a single display interface, a power supply voltage adjusting instruction is sent to a central processing unit of the mobile terminal;

and the central processing unit executes the power supply voltage adjusting instruction, and reduces the maximum power supply voltage to a preset voltage for power supply.

8. A storage medium storing a mobile terminal virtual unlock voltage control program, wherein the mobile terminal virtual unlock voltage control program, when executed by a processor, implements the mobile terminal virtual unlock voltage control method according to any one of claims 1 to 4.

Images