CN112286315B - Information processing method for electronic equipment performance and electronic equipment - Google Patents

Abstract

The application discloses an information processing method aiming at electronic equipment performance and electronic equipment, wherein the method comprises the following steps: detecting the operation state of an operation body for the electronic equipment; acquiring the use state of external equipment of the electronic equipment under the condition that the electronic equipment is not operated or contacted by the operation body; in the event that it is determined that the external device is currently in use, driving the electronic device to enable a first mode, wherein the first mode includes the electronic device adjusting or maintaining performance of internal components according to a preset specification based on surface temperature within a preset range. The method can adjust or maintain the performance of the electronic equipment even if the surface temperature or the vibration amplitude of the electronic equipment is higher or the vibration amplitude is larger under the condition that a user uses the external equipment without being influenced by the surface temperature or the vibration of the electronic equipment, and does not need to immediately perform frequency reduction treatment on components in the electronic equipment, so that the performance of the electronic equipment is maintained and the user can use the electronic equipment conveniently.

Description

Information processing method for electronic equipment performance and electronic equipment

Technical Field

The present disclosure relates to the field of electronic devices such as notebook computers, and in particular, to an information processing method for electronic device performance and an electronic device.

Background

Electronic equipment such as a notebook computer generally has a self-protection function, for example, when the surface temperature of the electronic equipment is too high, it is necessary to perform a frequency reduction process on components in the notebook computer (for example, to perform performance adjustment on the notebook computer through Dynamic Tuning Technology), so as to reduce the surface temperature of the electronic equipment, which may also degrade the performance of the electronic equipment. At present, a user can often use external equipment such as an external keyboard and an external display screen in the process of using the electronic equipment such as a notebook computer, and the surface of the electronic equipment is not touched at the moment, so that the user can not be influenced to feel (such as having a burning sensation) or damage the electronic equipment even if the surface temperature is higher. However, the current predetermined down-conversion procedure is not suitable for these situations, and only when the surface temperature is high, the frequency of the main components of the electronic device is reduced, which results in the performance degradation of the electronic device.

Disclosure of Invention

An object of the embodiments of the present application is to provide an information processing method for electronic device performance and an electronic device, which can eliminate the need for performing down-conversion processing on components in the electronic device in order not to affect the user's touch even if the surface temperature of the electronic device is high (within a preset range) when the user uses an external device.

In order to solve the technical problem, the embodiment of the application adopts the following technical scheme: an information processing method for electronic device performance, comprising:

detecting the operation state of an operation body for the electronic equipment;

acquiring the use state of external equipment of the electronic equipment under the condition that the electronic equipment is not operated or contacted by the operation body;

in the event that it is determined that the external device is currently in use, driving the electronic device to enable a first mode, wherein the first mode includes the electronic device adjusting or maintaining performance of internal components according to a preset specification based on surface temperature within a preset range.

Optionally, the detecting the operation state of the operation body for the electronic device includes:

determining a state of a first determination switch if it is determined that the first mode is not enabled;

and under the condition that the first judgment switch is turned on, detecting the situation that the operation body operates a plurality of external components of the electronic equipment.

Optionally, the detecting a scene that the operating body operates a plurality of external components of the electronic device when the first determination switch is turned on includes:

respectively judging the situations that the operation body touches the internal keyboard of the electronic equipment and other internal components except the internal keyboard;

and under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time, determining that the operation body does not operate or contact the main body of the electronic equipment.

Optionally, the acquiring the use status of the external device of the electronic device includes:

sending corresponding detection signals to the external equipment in a wired or wireless mode through at least one sensor arranged on the electronic equipment, wherein each external equipment corresponds to a respective detection signal;

and detecting a response signal sent by the external equipment based on the detection signal, and determining whether the external equipment is connected with the main body of the electronic equipment based on the response signal so as to acquire the use state of the external equipment.

Optionally, the driving the electronic device to enable the first mode in case that it is determined that the external device is currently used includes:

triggering a checking instruction after the first mode is enabled, checking whether the electronic equipment works based on the first mode based on the checking instruction, and if not, re-enabling the first mode.

Optionally, the adjusting or maintaining the performance of the internal component of the electronic device in the preset range according to the preset specification based on the surface temperature specifically includes:

and under the condition that the surface temperature does not exceed the preset range, not executing a preset frequency reduction program to avoid the performance reduction of internal components of the electronic equipment.

Optionally, the method further comprises:

and when the surface temperature of the electronic equipment exceeds the preset range, closing the first mode and driving internal components of the electronic equipment to reduce the frequency.

An embodiment of the present application further provides an electronic device, including:

the detection module is configured to detect the operation state of the operation body aiming at the electronic equipment;

an acquisition module configured to acquire a use state of an external device of the electronic device in a case where the electronic device is not operated or contacted by the operation body;

a processing module configured to drive the electronic device to enable a first mode if it is determined that the external device is currently used, wherein the first mode includes the electronic device adjusting or maintaining performance of internal components according to a preset specification based on a surface temperature within a preset range.

Optionally, the detecting module is further configured to:

determining a state of a first determination switch if it is determined that the first mode is not enabled;

and under the condition that the first judgment switch is turned on, detecting the situation that the operation body operates a plurality of external components of the electronic equipment.

Optionally, the detecting module is further configured to:

respectively judging the situations that the operation body touches the internal keyboard of the electronic equipment and other internal components except the internal keyboard;

and under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time, determining that the operation body does not operate or contact the main body of the electronic equipment.

According to the information processing method for the performance of the electronic equipment, the performance of the electronic equipment can be adjusted or maintained even if the surface temperature of the electronic equipment is high or the vibration amplitude of the electronic equipment is large (within a preset range) under the condition that a user uses the external equipment without being influenced by the surface temperature or the vibration of the electronic equipment, and the frequency reduction processing of parts in the electronic equipment is not required to be immediately performed in order not to influence the touch feeling of the user, so that the performance of the electronic equipment is maintained, and the use by the user is facilitated.

Drawings

Fig. 1 is a flowchart of an information processing method for electronic device performance according to an embodiment of the present application;

FIG. 2 is a flowchart of step S1 in FIG. 1 according to an embodiment of the present application;

FIG. 3 is a flowchart of step S12 in FIG. 2 according to an embodiment of the present application;

FIG. 4 is a flowchart of step S2 in FIG. 1 according to an embodiment of the present application;

FIG. 5 is a flowchart of an embodiment of an information processing method according to the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

Various aspects and features of the present application are described herein with reference to the drawings.

It will be understood that various modifications may be made to the embodiments of the present application. Accordingly, the foregoing description should not be construed as limiting, but merely as exemplifications of embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the application.

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and, together with a general description of the application given above and the detailed description of the embodiments given below, serve to explain the principles of the application.

These and other characteristics of the present application will become apparent from the following description of preferred forms of embodiment, given as non-limiting examples, with reference to the attached drawings.

It should also be understood that, although the present application has been described with reference to some specific examples, a person of skill in the art shall certainly be able to achieve many other equivalent forms of application, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present application will become more apparent in view of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present application are described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the application, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application of unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the phrases "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

Fig. 1 is a flowchart of an information processing method for electronic device performance according to an embodiment of the present application, where the method may be used in an electronic device such as a notebook computer and a smart terminal, and the electronic device may be connected to an external device so as to use the external device, as shown in fig. 1, the method includes the following steps:

s1, detecting the operation state of the operation body for the electronic device.

The operation body is an object for operating the electronic device, for example, a finger of an operator may be the operation body, an operation tool used by the operator may also be the operation body, the operation body may be directly operated on the electronic device, or may be operated on an external device connected to the electronic device, for example, a preset keyboard on a notebook computer (or an intelligent terminal) may be operated, or an input operation may be performed on the notebook computer through an external keyboard. The operation body may perform an operation by contacting the electronic device, or may perform an operation on the electronic device only by a non-contact operation mode without contacting the electronic device itself. For example, on one hand, when the operation body is operated by using a preset keyboard on a notebook computer, the operation body is used for performing contact operation on the electronic equipment; on the other hand, the operation body operates the electronic equipment through the audio instruction, and is also in a non-contact operation mode; on the other hand, the operation body indirectly sends the control instruction to the electronic device body through the external device, for example, if the external keyboard is used, or the external screen operates the electronic device in a wired or wireless manner, the manner is a non-contact operation state; in yet another aspect, the electronic device may also be operated contactlessly over a network. In the process of detecting the operation state in this embodiment, the original component of the electronic device, for example, the original component (e.g., CPU) in the electronic device, may be used to detect the signal of the corresponding port for determination, or may be used to detect the operation state through an independent sensor.

And S2, acquiring the using state of the external device of the electronic device when the operation body does not operate or contact the electronic device.

The operation body is controlled electronic equipment under the non-contact condition, do not operate or contact electronic equipment promptly, then the heating state or the vibration state of electronic equipment can not cause the influence to the operation body, for example the heating of electronic equipment's surface can not make user's palm have a burning sensation, or electronic equipment's vibration amplitude is great also can not influence the operation body, above-mentioned condition is in certain within range (for example electronic equipment's surface temperature does not exceed specific temperature value, or vibration amplitude does not exceed specific amplitude value etc.), can not cause harm to electronic equipment, need not to intervene it immediately for electronic equipment's performance descends. In this embodiment, the performance of the electronic device is not reduced in order to reduce the temperature, the amplitude, or the like. In this embodiment, the use state of the external device of the electronic device needs to be acquired, and whether the user is using the external device can be determined based on the use state, so as to determine whether the current state of the electronic device affects the user, which indicates that the user does not contact the electronic device if the external device is determined to be used, and indicates that the user is contacting the electronic device if the external device is determined to be not used, which may affect the user, such as the above-mentioned burning sensation or large vibration.

And S3, under the condition that the external device is determined to be used currently, driving the electronic device to start a first mode, wherein the first mode comprises that the electronic device adjusts or maintains the performance of the internal components according to preset regulations based on the surface temperature within a preset range.

Specifically, if the external device is being used in the current state, it indicates that the user needs to use the electronic device, and still needs to manipulate the electronic device, and the external device is connected to the main body of the electronic device to send a command to the main body of the electronic device through the external device. In the event that it is determined that the external device is currently in use, the drive electronics enable the first mode. Before that, the user can be in other working modes and also can work in the first mode. The electronic device may be driven to enable the first mode in whatever state. The first mode is to adjust or maintain the performance of the internal components according to the preset specification based on the surface temperature within a preset range, and the first mode can enable the electronic device to suspend executing the preset frequency reduction program even if the surface temperature is high or the vibration amplitude is large, but adjust or maintain the performance of the internal components according to the preset specification based on the surface temperature or the vibration amplitude within a certain range, for example, maintain the performance of the internal main components of the electronic device, even enhance the performance of the internal main components by a small amplitude, and of course, control the surface temperature or the vibration amplitude within an appropriate range while maintaining the performance of the electronic device unchanged or reducing the performance by a small amplitude.

According to the information processing method for the electronic equipment performance, under the condition that a user uses external equipment without being influenced by the surface temperature or vibration of the electronic equipment, the performance of the electronic equipment can be adjusted or maintained even if the surface temperature or the vibration amplitude of the electronic equipment is higher (within a preset range), and the frequency reduction processing of parts in the electronic equipment is not required to be immediately carried out in order not to influence the touch of the user, so that the performance of the electronic equipment is maintained, and the use by the user is facilitated.

As shown in fig. 2 in combination with fig. 5, in an embodiment of the present application, the detecting the operation state of the operation body with respect to the electronic device includes the following steps:

s11, determining the state of the first determination switch when it is determined that the first mode is not enabled.

The first judging switch is used for triggering the judgment of the use state of the external equipment, and when the user turns off the first judging switch, the electronic equipment does not detect the use state of the external equipment, for example, the user does not worry about the transient reduction of the equipment performance in some use processes, and does not need to enable the electronic equipment to start a first mode, so that the first judging switch can be turned off to not judge the use state of the external equipment. Therefore, the electronic equipment cannot perform excessive operation, and system resources are saved. Of course, if the first mode is already enabled, the determination as to whether the first determination switch is enabled may not be made. In addition, the first determination switch may be a Lid switch.

S12, detecting a situation where the operating body operates a plurality of external components of the electronic device when the first determination switch is turned on.

The first judging switch is turned on, the electronic device detects the use condition of the operating body operating the external device, judges whether the external device is used or not, and further judges how the external device is used if the external device is used. Whether the operation body operates the external part so as to use the electronic equipment is included; whether the operation body operates the external device but does not utilize the external device to interact with the main body of the electronic device, for example, the external device of the electronic device interacts with other devices, or the external device is independently used, and in this case, the performance of the electronic device is reduced without affecting the user.

As shown in fig. 3 in combination with fig. 5, in an embodiment of the application, the detecting a situation that the operating body operates a plurality of external components of the electronic device when the first determination switch is turned on includes the following steps:

and S121, respectively judging the situations of the operation body touching the internal keyboard of the electronic equipment and other internal components except the internal keyboard.

The internal keyboard is arranged in the electronic device, for example, the internal keyboard of the notebook computer is arranged on the host, and other internal components of the electronic device except the internal keyboard can be devices such as a display screen, an interface, a shell, a camera and the like. The detecting step can be implemented by a sensor or other devices, which are not described herein.

And S122, determining that the operation body does not operate or contact the main body of the electronic equipment under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time.

The operation body does not touch the internal keyboard when exceeding the preset time and does not touch other internal components when exceeding the preset time, so that the situation that the operation body unintentionally touches the internal keyboard or other internal components can be eliminated, and it is determined that the user does not use the operation body to operate the main body of the electronic equipment or does not contact the electronic equipment. For example, if it is determined that the operation body does not touch the internal display of the electronic device for more than 30 seconds, it indicates that the operation body is operating or touching the main body of the electronic device, and the surface temperature or vibration of the electronic device does not affect the operation body.

In an embodiment of the application, the acquiring the use status of the external device of the electronic device, as shown in fig. 4, includes the following steps:

s21, sending a corresponding detection signal to the external device through at least one sensor disposed on the electronic device in a wired or wireless manner, where each of the external devices corresponds to a respective detection signal.

Specifically, the sensor may send a detection signal to the external device for detecting a usage of the external device, and in one embodiment, the detection signal may be sent at a preset time interval, or may be sent according to a command. In this embodiment, each external device corresponds to a respective detection signal, and the detection signal may be set according to the type of the external device, that is, the electronic device may send out a plurality of detection signals for detecting different external devices, such as an external keyboard, an external display screen, and an external speaker.

S22, detecting a response signal sent by the external device based on the detection signal, and determining whether the external device is connected with the main body of the electronic device based on the response signal to acquire the use state of the external device.

After receiving the detection signal, the external device returns a response signal correspondingly, and acquiring the response signal indicates that the external device is in a usable state, for example, the external device is close to the main body of the electronic device and can perform data interaction with the electronic device. The electronic device may further determine whether the external device is connected to the main body of the electronic device based on the response signal to obtain a usage status of the external device, such as a usage status, an unused status, or a specific situation during usage.

In an embodiment of the application, said driving the electronic device to enable the first mode in case that it is determined that the external device is currently used includes: triggering a checking instruction after the first mode is enabled, checking whether the electronic equipment works based on the first mode based on the checking instruction, and if not, re-enabling the first mode.

Specifically, referring to fig. 5, after the first mode is enabled, in some cases, such as an error occurring in the operation process, the enabling may fail, in this embodiment, a check instruction is triggered after the first mode is enabled, the check instruction can detect whether the electronic device enters the first mode, and if the check result indicates that the electronic device is enabled in the first mode, the electronic device may re-enable the first mode, or simultaneously issue a check, that is, a start result.

In an embodiment of the present application, the adjusting or maintaining the performance of the internal component according to the preset specification based on the surface temperature in the preset range includes:

and under the condition that the surface temperature does not exceed the preset range, not executing a preset frequency reduction program to avoid the performance reduction of internal components of the electronic equipment.

Specifically, the preset range may be preset for the type of the electronic device and the specific hardware and software composition thereof, and the surface temperature is within the preset range and will not harm the electronic device, so that the preset down-conversion program (which may reduce the device performance in exchange for the reduction of the surface temperature) is not executed without exceeding the preset range, thereby preventing the performance degradation of the internal components of the electronic device, such as the performance degradation of the CPU and the GPU, and thus not affecting the use effect of the user.

In one embodiment of the present application, the method further comprises: and when the surface temperature of the electronic equipment exceeds the preset range, closing the first mode and driving internal components of the electronic equipment to reduce the frequency.

Specifically, if the surface temperature of the electronic device is too high to exceed the preset range, or the vibration amplitude is too high to exceed the preset range, which indicates that the electronic device must be intervened or otherwise damage the electronic device, the first mode may be turned off, and the preset frequency reduction program is executed, so that the main components (such as CPU, GPU) inside the electronic device are immediately reduced in frequency, thereby avoiding the damage of the electronic device.

An embodiment of the present application further provides an electronic device, where the electronic device may be a device such as a notebook computer, and as shown in fig. 6, the electronic device includes:

the detection module is configured to detect an operation state of the operation body for the electronic equipment.

Specifically, the operation body is an object for operating the electronic device, for example, a finger of an operator may be the operation body, an operation tool used by the operator may also be the operation body, and the operation body may be directly operated on the electronic device, or may be operated on an external device connected to the electronic device, for example, a preset keyboard on a notebook computer may be operated, or an input operation may be performed on the notebook computer through an external keyboard. The operation body may perform an operation by contacting the electronic device, or may perform an operation on the electronic device only by a non-contact operation mode without contacting the electronic device itself. For example, on one hand, when the operation body is operated by using a preset keyboard on a notebook computer, the operation body is used for performing contact operation on the electronic equipment; on the other hand, the operation body operates the electronic equipment through the audio instruction, and is also in a non-contact operation mode; on the other hand, the operation body indirectly sends the control instruction to the electronic device body through the external device, for example, if the external keyboard is used, or the external screen operates the electronic device in a wired or wireless manner, the manner is a non-contact operation state; in yet another aspect, the electronic device may also be operated contactlessly over a network. In the embodiment, in the process of detecting the operation state by the detecting module, the original component of the electronic device, for example, the original component (e.g., CPU) in the electronic device, may be used to detect the signal of the corresponding port for judgment, and may also be used to detect through an independent sensor.

An acquisition module configured to acquire a use state of an external device of the electronic device in a case where the electronic device is not operated or contacted by the operation body.

The operation body is controlled electronic equipment under the non-contact condition, do not operate or contact electronic equipment promptly, then the heating state or the vibration state of electronic equipment can not cause the influence to the operation body, for example the heating of electronic equipment's surface can not make user's palm have a burning sensation, or electronic equipment's vibration amplitude is great also can not influence the operation body, above-mentioned condition is in certain within range (for example electronic equipment's surface temperature does not exceed specific temperature value, or vibration amplitude does not exceed specific amplitude value etc.), can not cause harm to electronic equipment, need not to intervene it immediately for electronic equipment's performance descends. In this embodiment, the performance of the electronic device is not reduced in order to reduce the temperature, the amplitude, or the like. In this embodiment, the obtaining module is required to obtain a usage state of an external device of the electronic device, and whether the user is using the external device may be determined based on the usage state, so as to determine whether a current state of the electronic device affects the user, if the external device is determined to be being used, it indicates that the user is not touching the electronic device itself, and if the external device is determined to be not being used, it indicates that the user is touching the electronic device, and the current state of the electronic device may affect the user, such as a burning sensation or a large vibration.

A processing module configured to drive the electronic device to enable a first mode if it is determined that the external device is currently used, wherein the first mode includes the electronic device adjusting or maintaining performance of internal components according to a preset specification based on a surface temperature within a preset range.

Specifically, if the external device is being used in the current state, it indicates that the user needs to use the electronic device, and still needs to manipulate the electronic device, and the external device is connected to the main body of the electronic device to send a command to the main body of the electronic device through the external device. In the event that it is determined that the external device is currently in use, the processing module drives the electronic device to enable the first mode. Before that, the user can be in other working modes and also can work in the first mode. The processing module may drive the electronic device to enable the first mode regardless of the state. The first mode is to adjust or maintain the performance of the internal components according to the preset specification based on the surface temperature within a preset range, and the first mode can enable the electronic device to suspend executing the preset frequency reduction program even if the surface temperature is high or the vibration amplitude is large, but adjust or maintain the performance of the internal components according to the preset specification based on the surface temperature or the vibration amplitude within a certain range, for example, maintain the performance of the internal main components of the electronic device, even enhance the performance of the internal main components by a small amplitude, and of course, control the surface temperature or the vibration amplitude within an appropriate range while maintaining the performance of the electronic device unchanged or reducing the performance by a small amplitude.

The electronic equipment can adjust or maintain the performance of the electronic equipment even if the surface temperature of the electronic equipment is higher or the vibration amplitude is larger (within a preset range) under the condition that a user uses the external equipment without being influenced by the surface temperature or the vibration of the electronic equipment, and the frequency reduction treatment on parts in the electronic equipment is not required to be immediately carried out in order to not influence the touch of the user, so that the performance of the electronic equipment is maintained, and the electronic equipment is convenient to use by the user.

In one embodiment of the present application, the detection module is further configured to:

determining a state of a first determination switch if it is determined that the first mode is not enabled;

and under the condition that the first judgment switch is turned on, detecting the situation that the operation body operates a plurality of external components of the electronic equipment.

Specifically, the first determination switch is used for triggering the determination of the use state of the external device, and when the user turns off the first determination switch, the electronic device does not detect the use state of the external device, for example, the user does not care about the transient decrease of the device performance in some use processes, and does not need to enable the electronic device to start the first mode, so that the first determination switch can be turned off to not determine the use state of the external device. Therefore, the electronic equipment cannot perform excessive operation, and system resources are saved. Of course, if the first mode is already enabled, the determination as to whether the first determination switch is enabled may not be made. In addition, the first determination switch may be a Lid switch.

The first judging switch is turned on, the electronic device detects the use condition of the operating body operating the external device, judges whether the external device is used or not, and further judges how the external device is used if the external device is used. Whether the operation body operates the external part so as to use the electronic equipment is included; whether the operation body operates the external device but does not utilize the external device to interact with the main body of the electronic device, for example, the external device of the electronic device interacts with other devices, or the external device is independently used, and in this case, the performance of the electronic device is reduced without affecting the user.

In one embodiment of the present application, the detection module is further configured to:

respectively judging the situations that the operation body touches the internal keyboard of the electronic equipment and other internal components except the internal keyboard;

and under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time, determining that the operation body does not operate or contact the main body of the electronic equipment.

Specifically, the internal keyboard is disposed in the electronic device, for example, the internal keyboard of the notebook computer is disposed on the host, and other internal components of the electronic device except the internal keyboard may be a display, an interface, a housing, a camera, and the like. The detecting action can be realized by a sensor or other devices, which are not described in detail herein.

The operation body does not touch the internal keyboard when exceeding the preset time, and does not touch other internal components when exceeding the preset time, the detection module can eliminate the situation that the operation body unintentionally touches the internal keyboard or other internal components, and it is determined that the user does not use the operation body to control the main body of the electronic device, or does not touch the electronic device. For example, if the detection module determines that the operating body does not touch the internal display screen of the electronic device for more than 30 seconds, it indicates that the operating body is operating or contacting the main body of the electronic device, and the surface temperature or vibration of the electronic device does not affect the operating body.

In one embodiment of the present application, the obtaining module is further configured to:

sending corresponding detection signals to the external equipment in a wired or wireless mode through at least one sensor arranged on the electronic equipment, wherein each external equipment corresponds to a respective detection signal;

and detecting a response signal sent by the external equipment based on the detection signal, and determining whether the external equipment is connected with the main body of the electronic equipment based on the response signal so as to acquire the use state of the external equipment.

In one embodiment of the present application, the processing module is further configured to: triggering a checking instruction after the first mode is enabled, checking whether the electronic equipment works based on the first mode based on the checking instruction, and if not, re-enabling the first mode.

In one embodiment of the present application, the processing module is specifically configured to: and under the condition that the surface temperature does not exceed the preset range, not executing a preset frequency reduction program to avoid the performance reduction of internal components of the electronic equipment.

In one embodiment of the present application, the processing module is further configured to: and when the surface temperature of the electronic equipment exceeds the preset range, closing the first mode and driving internal components of the electronic equipment to reduce the frequency.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (5)

1. An information processing method for electronic device performance, comprising:

detecting the operation state of an operation body for the electronic equipment;

acquiring the use state of external equipment of the electronic equipment under the condition that the electronic equipment is not operated or contacted by the operation body;

in the case that the external device is determined to be currently used, driving the electronic device to enable a first mode, wherein the first mode comprises that the electronic device adjusts or maintains the performance of internal components according to preset regulations based on the surface temperature within a preset range; wherein,

the detecting the operation state of the operation body for the electronic device includes:

determining a state of a first determination switch if it is determined that the first mode is not enabled;

detecting a scene that the operating body operates a plurality of external components of the electronic equipment under the condition that the first judgment switch is turned on;

the detecting a scene that the operating body operates a plurality of external components of the electronic device under the condition that the first judging switch is turned on includes:

respectively judging the situations that the operation body touches the internal keyboard of the electronic equipment and other internal components except the internal keyboard;

determining that the operation body does not operate or contact the main body of the electronic equipment under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time;

the electronic equipment adjusts or maintains the performance of the internal components based on the surface temperature according to the preset regulation in the preset range, and specifically comprises the following steps:

and under the condition that the surface temperature does not exceed the preset range, not executing a preset frequency reduction program to avoid the performance reduction of internal components of the electronic equipment.

2. The method of claim 1, wherein the obtaining the usage status of the external device of the electronic device comprises:

sending corresponding detection signals to the external equipment in a wired or wireless mode through at least one sensor arranged on the electronic equipment, wherein each external equipment corresponds to a respective detection signal;

and detecting a response signal sent by the external equipment based on the detection signal, and determining whether the external equipment is connected with the main body of the electronic equipment based on the response signal so as to acquire the use state of the external equipment.

3. The method of claim 1, wherein said driving the electronic device to enable the first mode if it is determined that the external device is currently used comprises:

triggering a checking instruction after the first mode is enabled, checking whether the electronic equipment works based on the first mode based on the checking instruction, and if not, re-enabling the first mode.

4. The method of claim 1, further comprising:

and when the surface temperature of the electronic equipment exceeds the preset range, closing the first mode and driving internal components of the electronic equipment to reduce the frequency.

5. An electronic device, comprising:

the detection module is configured to detect the operation state of the operation body aiming at the electronic equipment;

an acquisition module configured to acquire a use state of an external device of the electronic device in a case where the electronic device is not operated or contacted by the operation body;

a processing module configured to drive the electronic device to enable a first mode if it is determined that the external device is currently used, wherein the first mode includes the electronic device adjusting or maintaining performance of internal components according to a preset specification based on a surface temperature within a preset range; wherein,

the detection module is further configured to:

determining a state of a first determination switch if it is determined that the first mode is not enabled;

detecting a scene that the operating body operates a plurality of external components of the electronic equipment under the condition that the first judgment switch is turned on;

the detection module is further configured to:

respectively judging the situations that the operation body touches the internal keyboard of the electronic equipment and other internal components except the internal keyboard;

determining that the operation body does not operate or contact the main body of the electronic equipment under the condition that the operation body does not touch the internal keyboard for more than the preset time and does not touch other internal components for more than the preset time;

the processing module is specifically configured to: and under the condition that the surface temperature does not exceed the preset range, not executing a preset frequency reduction program to avoid the performance reduction of internal components of the electronic equipment.

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