CN106412337B - Method and device for adjusting heating condition of mobile terminal and terminal - Google Patents

Abstract

The invention provides a method, a device and a terminal for adjusting the heating condition of a mobile terminal, wherein the method for adjusting the heating condition of the mobile terminal comprises the following steps: judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers; when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not; when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode; when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to the first non-handheld answering adjusting mode, and differential control over the temperatures of different areas of the terminal is achieved according to different temperature sensitivity degrees of a human body under different call scenes, the CPU frequency is reduced, the heating problem of the terminal is solved more efficiently and sensitively, and the use experience of a user is improved.

Description

Method and device for adjusting heating condition of mobile terminal and terminal

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a method, a device and a terminal for adjusting the heating condition of a mobile terminal.

Background

At present, with the popularization of intelligent machines, the screen of a terminal is also getting bigger and bigger, the heating condition of the terminal is getting more and more serious, and especially the direct-current high-voltage quick-charging technology developed in two years and the popularity of a metal shell terminal, the heating of the terminal is also becoming a pain point of users gradually. In the existing scheme, heating control of the whole terminal is only performed when the terminal is charged, and the condition that the terminal is close to the human face ear region when a hand-held non-hands-free call is not considered. How to efficiently solve the problem of terminal heating becomes an urgent problem to be solved.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, an object of the present invention is to provide a method for adjusting a heating condition of a mobile terminal.

Another object of the present invention is to provide an apparatus for adjusting a heating condition of a mobile terminal.

It is a further object of the present invention to provide a terminal.

In view of the above, according to an object of the present invention, a method for adjusting a heating condition of a mobile terminal is provided, including: judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers; when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not; when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode.

The method for adjusting the heating condition of the mobile terminal provided by the invention judges whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers, when the mobile terminal is in a charging state, whether the answering mode of the mobile terminal is handheld answering is judged through the acceleration sensor, the gyroscope and the air pressure sensor, when the answering mode of the mobile terminal is handheld answering, the mobile terminal is adjusted according to the first handheld answering adjustment mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to a first non-handheld answering adjusting mode, and under different call scenes, according to different temperature sensitivity degrees of human bodies, the differential control of the temperature of different areas of the terminal is realized, the CPU frequency is reduced, and then solve the problem of generating heat at terminal high-efficiently, sensitively, promoted user's use and experienced.

The method for adjusting the heating condition of the mobile terminal according to the present invention may further have the following technical features:

in the foregoing technical solution, preferably, the step of adjusting the mobile terminal according to the first handheld listening adjustment manner includes: judging whether the call mode of the mobile terminal is a handheld non-hands-free call; when the call mode of the mobile terminal is a handheld non-hands-free call, adjusting the charging current of the mobile terminal to a second charging multiplying factor current; detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; when the temperature of the heat source position in the face area is greater than a first preset face temperature threshold value, stopping background application of the face area device; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the technical scheme, whether the call mode of the mobile terminal is a handheld non-hands-free call or not is judged through a distance sensor, when the call mode of the mobile terminal is the handheld non-hands-free call, the charging current is adjusted to be a second charging multiplying factor current, so that the heating condition of the terminal is reduced, the real-time temperature of the position of a heat source in a human face area, the real-time temperature of the position of a heat source in a human ear area and the real-time temperature of the position of a heat source in a human hand area are detected through an NTC thermistor, when the temperature of the position of the heat source in the human face area is greater than a first preset human face temperature threshold value, the background application of a device in the human ear area is stopped, when the temperature of the position of the heat source in the human ear area is greater than a second preset human face temperature threshold value, the background application of the device in the, the second charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal, real-time temperature monitoring of each main heat source position inside the terminal is achieved through NTC thermistors distributed on each heat source position on the mainboard, due to the fact that the terminal belongs to a conversation state, the charging current is smaller than the preset charging multiplying power current, differentiated temperature control is conducted on different heat sources of the terminal by considering the fact that different parts of a human body are different in heat sensitivity degree, the use frequency of a CPU is reduced, and then the heating condition of a corresponding area is reduced.

In the above technical solution, preferably, the method further includes: when the call mode of the mobile terminal is not a handheld non-hands-free call, adjusting the charging current of the mobile terminal to a first charging rate current; detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; when the temperature of the heat source position in the face area is larger than a preset handheld temperature threshold value, stopping background application of the face area device; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area. The first charging multiplying power current is larger than the second charging multiplying power current, and the first charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal.

In the technical scheme, when the mobile terminal is in a handheld hands-free call mode, the charging current of the mobile terminal is adjusted to a first charging multiplying factor current, the NTC thermistor is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the face area is greater than a preset handheld temperature threshold value, background application of a device in the face area is stopped, when the position temperature of the heat source in the ear area is greater than the preset handheld temperature threshold value, background application of the device in the ear area is stopped, when the position temperature of the heat source in the hand area is greater than the preset handheld temperature threshold value, background application of the device in the hand area is stopped, and the first charging multiplying factor current is smaller than the preset. The NTC thermistors distributed at the positions of the heat sources on the mainboard are used for monitoring the real-time temperature of the main heat source positions in the terminal, the charging current is smaller than the preset charging multiplying factor current due to the fact that the terminal is in a conversation state, and in addition, different from the situation of handheld non-hands-free conversation, the terminal can be charged by the first charging multiplying factor current larger than the second charging multiplying factor current, and therefore the heating situation of the terminal is reduced.

In the foregoing technical solution, preferably, the step of adjusting the mobile terminal according to the first non-handheld listening adjustment manner includes: charging the mobile terminal according to a preset charging rate current; detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; when the temperature of the heat source position in the face area is greater than a preset maximum temperature threshold value, stopping background application of the face area device; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is charged according to a preset charging multiplying power current, an NTC thermistor is used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the human face area is greater than a preset maximum temperature threshold, background application of a device in the human face area is stopped, when the position temperature of the heat source in the human ear area is greater than the preset maximum temperature threshold, background application of the device in the human hand area is stopped, when non-handheld hands-free conversation is carried out, charging is carried out according to a normal current, and when the temperature monitored by the NTC thermistor at each heat source position exceeds the preset maximum temperature threshold of a system, corresponding application in a terminal background is frozen, and performing frequency reduction processing on the CPU.

In the above technical solution, preferably, the method further includes: when the mobile terminal is not in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not; when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a second handheld answering adjusting mode; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode.

In the technical scheme, when the mobile terminal is not in a charging state, through the acceleration sensor, the gyroscope and the air pressure sensor judge whether the answering mode of the mobile terminal is handheld answering or not, when the answering mode of the mobile terminal is handheld answering, the mobile terminal is adjusted according to the second handheld answering adjusting mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to the second non-handheld answering adjusting mode, through the charging current configuration and the temperature control of the terminal in the differentiation of various conditions, the CPU frequency is reduced, and then the heating problem of the terminal is solved more efficiently and sensitively, and the use experience of a user is improved.

In the above technical solution, preferably, the step of adjusting the mobile terminal according to the second handheld listening adjustment mode includes: judging whether the call mode of the mobile terminal is a handheld non-hands-free call; when the call mode of the mobile terminal is a handheld non-hands-free call, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area; when the temperature of the heat source position in the face area is greater than a first preset face temperature threshold value, stopping background application of the face area device; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is handheld answering, whether the calling mode of the mobile terminal is handheld non-hands-free calling is judged, when the calling mode of the mobile terminal is handheld non-hands-free calling, the NTC thermistor is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the face area is greater than a first preset face temperature threshold value, background application of a device in the face area is stopped, when the position temperature of the heat source in the ear area is greater than a second preset face temperature threshold value, background application of the device in the ear area is stopped, when the position temperature of the heat source in the hand area is greater than a third preset face temperature threshold value, background application of the device in the hand area is stopped, and real-time temperature monitoring of each main heat source position in the terminal is, the different heat sources of the terminal are subjected to differentiated temperature control according to different heat sensitivity degrees of different parts of a human body, the use frequency of a CPU is reduced, and the heating condition of a corresponding area is reduced.

In the above technical solution, preferably, the method further includes: when the call mode of the mobile terminal is not a hand-held non-hands-free call, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area; when the temperature of the heat source position in the face area is larger than a preset handheld temperature threshold value, stopping background application of the face area device; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area.

In the technical scheme, when the mobile terminal is in a hand-held hands-free call mode, the NTC thermistor is used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the human face area is greater than a preset hand-held temperature threshold, the background application of a device in the human face area is stopped, when the position temperature of the heat source in the human ear area is greater than the preset hand-held temperature threshold, the background application of the device in the human hand area is stopped, the real-time monitoring of the temperature of each main heat source position in the terminal is realized through the NTC thermistor distributed at each heat source position on a mainboard, whether the temperature of the area exceeds the preset hand-held temperature threshold or not is judged during the hand-held call, and the background application of the corresponding area is frozen when the temperature exceeds, therefore, the heating condition of the terminal is reduced, and the frequency of a CPU is reduced.

In the foregoing technical solution, preferably, the step of adjusting the mobile terminal according to the second non-handheld listening adjustment manner includes: detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; when the temperature of the heat source position in the face area is greater than a preset maximum temperature threshold value, stopping background application of the face area device; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is non-handheld answering, the NTC thermistor is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the face area is greater than a preset maximum temperature threshold, the background application of a device in the face area is stopped, when the position temperature of the heat source in the ear area is greater than the preset maximum temperature threshold, the background application of the device in the ear area is stopped, when the position temperature of the heat source in the hand area is greater than the preset maximum temperature threshold, the background application of the device in the hand area is stopped, and the real-time temperature monitoring of each main heat source position in the terminal is realized through the NTC thermistor distributed.

According to another object of the present invention, an apparatus for adjusting a heating condition of a mobile terminal is provided, which includes: the first judgment module is used for judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers the incoming call; the second judging module is used for judging whether the answering mode of the mobile terminal is handheld answering or not when the mobile terminal is in a charging state; the first processing module is used for adjusting the mobile terminal according to a first handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode.

The device for adjusting the heating condition of the mobile terminal provided by the invention judges whether the mobile terminal is in a charging state or not through the first judging module under the condition that the mobile terminal has an incoming call and answers, judges whether the answering mode of the mobile terminal is handheld answering or not through the second judging module when the mobile terminal is in the charging state, adjusts the mobile terminal according to the first handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering, adjusts the mobile terminal according to the first non-handheld answering adjusting mode when the answering mode of the mobile terminal is non-handheld answering, realizes differentiated control of the temperature of different areas of the terminal according to different sensitivity degrees of human bodies to the temperature under different conversation scenes, reduces the CPU frequency, and further more efficiently and sensitively solves the heating problem of the terminal, the use experience of the user is improved.

The device for adjusting the heating condition of the mobile terminal according to the present invention may further have the following technical features:

in the above technical solution, preferably, the first processing module includes: the third judging module is used for judging whether the call mode of the mobile terminal is a handheld non-hands-free call; the first processing module is further used for adjusting the charging current of the mobile terminal to a second charging multiplying factor current when the call mode of the mobile terminal is a handheld non-hands-free call; the detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; the second processing module is used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the technical scheme, whether the call mode of the mobile terminal is a handheld non-hands-free call is judged through a third judging module, when the call mode of the mobile terminal is the handheld non-hands-free call, a first processing module adjusts charging current to second charging multiplying factor current so as to reduce the heating condition of the terminal, a detection module is used for detecting the real-time temperature of a face area heat source position, the real-time temperature of a human ear area heat source position and the real-time temperature of a human hand area heat source position, a second processing module stops background application of a face area device when the face area heat source position temperature is larger than a first preset face temperature threshold value, stops background application of the human ear area device when the human ear area heat source position temperature is larger than a second preset face temperature threshold value, and stops background application of the human hand area device when the human hand area heat source position temperature is larger than a third preset face temperature threshold value, the second charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal, real-time temperature monitoring of each main heat source position in the terminal is achieved through NTC thermistors distributed on each heat source position on the mainboard, the charging current is smaller than the preset charging multiplying power current due to the fact that the terminal belongs to a conversation state, differentiated temperature control is conducted on different heat sources of the terminal by considering the difference of heat sensitivity degrees of different parts of a human body, the use frequency of a CPU is reduced, and then the heating condition of a corresponding area is reduced.

In the foregoing technical solution, preferably, the first processing module is further configured to adjust a charging current of the mobile terminal to a first charging rate current when a call mode of the mobile terminal is not a handheld non-hands-free call; the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area; the second processing module is also used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area. The first charging multiplying power current is larger than the second charging multiplying power current, and the first charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal.

In the technical scheme, when the mobile terminal is in a handheld hands-free call mode, a first processing module adjusts the charging current of the mobile terminal to a first charging rate current, a detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, a second processing module stops background application of a device in the face area when the position temperature of the heat source in the face area is greater than a preset handheld temperature threshold value, stops background application of the device in the ear area when the position temperature of the heat source in the ear area is greater than the preset handheld temperature threshold value, and stops background application of the device in the hand area when the position temperature of the heat source in the hand area is greater than the preset handheld temperature threshold value, wherein the first charging rate current is smaller than the preset charging current rate of the mobile terminal. The NTC thermistors distributed at the positions of the heat sources on the mainboard are used for monitoring the real-time temperature of the main heat source positions in the terminal, the charging current is smaller than the preset charging multiplying factor current due to the fact that the terminal is in a conversation state, and in addition, different from the situation of handheld non-hands-free conversation, the terminal can be charged by the first charging multiplying factor current larger than the second charging multiplying factor current, and therefore the heating situation of the terminal is reduced.

In the above technical solution, preferably, the first processing module is further configured to charge the mobile terminal according to the preset charging rate current when the answering mode of the mobile terminal is non-handheld answering; the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area; the second processing module is also used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is charged according to a preset charging multiplying factor current, the detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, the second processing module stops the background application of the device in the face area when the position temperature of the heat source in the face area is greater than a preset maximum temperature threshold value, stops the background application of the device in the ear area when the position temperature of the heat source in the ear area is greater than the preset maximum temperature threshold value, stops the background application of the device in the hand area when the position temperature of the heat source in the hand area is greater than the preset maximum temperature threshold value, charges according to a normal current when non-handheld hands-free talking is carried out, and stops the background application of the device when the temperature monitored by NT, and freezing the application of the corresponding application of the terminal background, and performing frequency reduction processing on the CPU.

In the above technical solution, preferably, the second determining module is further configured to determine whether an answering mode of the mobile terminal is handheld answering or not when the mobile terminal is not in a charging state; the first processing module is further used for adjusting the mobile terminal according to a second handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode.

In the technical scheme, when the mobile terminal is not in a charging state, whether the answering mode of the mobile terminal is handheld answering or not is judged through the second judging module, when the answering mode of the mobile terminal is handheld answering, the first processing module adjusts the mobile terminal according to the second handheld answering adjusting mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to the second non-handheld answering adjusting mode, through the charging current configuration and the temperature control of the terminal in different conditions, the CPU frequency is reduced, the heating problem of the terminal is solved more efficiently and sensitively, and the use experience of a user is improved.

In the above technical solution, preferably, the first processing module includes: the third judging module is also used for judging whether the call mode of the mobile terminal is a handheld non-hands-free call when the answer mode of the mobile terminal is a handheld answer; the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area when the call mode of the mobile terminal is a handheld non-hands-free call; the second processing module is also used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is handheld answering, a third judging module judges whether the calling mode of the mobile terminal is handheld non-hands-free calling or not, when the calling mode of the mobile terminal is handheld non-hands-free calling, a detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, a second processing module stops background application of a device in the face area when the position temperature of the heat source in the face area is greater than a first preset face temperature threshold value, stops background application of the device in the ear area when the position temperature of the heat source in the ear area is greater than a second preset face temperature threshold value, stops background application of the device in the hand area when the position temperature of the heat source in the hand area is greater than a third preset face temperature threshold value, and realizes real-time temperature monitoring of each main heat source position in the terminal through NTC thermistors, the different heat sources of the terminal are subjected to differentiated temperature control according to different heat sensitivity degrees of different parts of a human body, the use frequency of a CPU is reduced, and the heating condition of a corresponding area is reduced.

In the above technical solution, preferably, the detection module is further configured to detect a face area heat source position temperature, a human ear area heat source position temperature, and a human hand area heat source position temperature when a call mode of the mobile terminal is not a handheld non-hands-free call; the second processing module is also used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area.

In the technical scheme, when the mobile terminal is in a hand-held hands-free call mode, the detection module is used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, the second processing module stops background application of a device in the human face area when the position temperature of the heat source in the human face area is greater than a preset hand-held temperature threshold value, stops background application of the device in the ear area when the position temperature of the heat source in the ear area is greater than the preset hand-held temperature threshold value, stops background application of the device in the hand area when the position temperature of the heat source in the hand area is greater than the preset hand-held temperature threshold value, monitors the real-time temperature of each main heat source position in the terminal through NTC thermistors distributed on each heat source position on a mainboard, judges whether the temperature of the area exceeds the preset hand-held temperature threshold, therefore, the heating condition of the terminal is reduced, and the frequency of a CPU is reduced.

In the above technical solution, preferably, the first processing module further includes: the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area when the answering mode of the mobile terminal is non-handheld answering; the second processing module is also used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the technical scheme, when the answering mode of the mobile terminal is non-handheld answering, the detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, the second processing module stops background application of a device in the face area when the position temperature of the heat source in the face area is larger than a preset maximum temperature threshold value, stops background application of the device in the ear area when the position temperature of the heat source in the ear area is larger than the preset maximum temperature threshold value, stops background application of the device in the hand area when the position temperature of the heat source in the hand area is larger than the preset maximum temperature threshold value, and realizes real-time monitoring of the temperature of each main heat source position in the terminal through NTC thermistors distributed at each heat source position on.

According to still another object of the present invention, there is provided a terminal including: the processor, the charging interface and the memory are connected through a bus, a computer instruction is stored in the memory, and the processor executes the computer instruction to realize the following method: judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers; when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not; when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode.

The terminal provided by the invention comprises: the processor, the charging interface and the memory are connected through a bus, a computer instruction is stored in the memory, and the processor executes the computer instruction to realize the following method: the method comprises the steps of judging whether a mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers, judging whether the answering mode of the mobile terminal is handheld answering or not through an acceleration sensor, a gyroscope and an air pressure sensor when the mobile terminal is in the charging state, adjusting the mobile terminal according to a first handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to the first non-handheld answering adjusting mode when the answering mode of the mobile terminal is non-handheld answering, realizing differentiated control on temperatures of different areas of the terminal according to different temperature sensitivity degrees of a human body under different conversation scenes, reducing CPU frequency, further solving the heating problem of the terminal more efficiently and sensitively, and improving the use experience of a user.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1a is a flow chart illustrating a method for adjusting a heating condition of a mobile terminal according to an embodiment of the invention;

FIG. 1b is a flow chart illustrating a method for adjusting a heating condition of a mobile terminal according to another embodiment of the invention;

FIG. 2 is a schematic block diagram of an apparatus for adjusting a heat condition of a mobile terminal according to an embodiment of the present invention;

FIG. 3 shows a schematic block diagram of a terminal of one embodiment of the present invention;

FIG. 4a shows a schematic block diagram of a terminal front heat source component of one embodiment of the present invention;

figure 4b shows a schematic block diagram of a terminal back heat source component in accordance with one embodiment of the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

Fig. 1a shows a flow chart of a method for adjusting a heating status of a mobile terminal according to an embodiment of the present invention:

step 100, judging whether the mobile terminal has an incoming call and answering the incoming call;

102, judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers;

104, judging whether the answering mode of the mobile terminal is handheld answering or not when the mobile terminal is in a charging state;

step 106, when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode;

step 108, when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode;

step 110, when the mobile terminal is not in a charging state, judging whether the answering mode of the mobile terminal is handheld answering;

step 112, when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a second handheld answering adjusting mode;

and step 114, when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode.

The method for adjusting the heating condition of the mobile terminal provided by the invention judges whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers, when the mobile terminal is in a charging state, whether the answering mode of the mobile terminal is handheld answering is judged through the acceleration sensor, the gyroscope and the air pressure sensor, when the answering mode of the mobile terminal is handheld answering, the mobile terminal is adjusted according to the first handheld answering adjustment mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to a first non-handheld answering adjusting mode, and under different call scenes, according to different temperature sensitivity degrees of human bodies, the differential control of the temperature of different areas of the terminal is realized, the CPU frequency is reduced, and then solve the problem of generating heat at terminal high-efficiently, sensitively, promoted user's use and experienced. When the mobile terminal is not in a charging state, through the acceleration sensor, the gyroscope and the air pressure sensor judge whether the answering mode of the mobile terminal is handheld answering or not, when the answering mode of the mobile terminal is handheld answering, the mobile terminal is adjusted according to a second handheld answering adjusting mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to the second non-handheld answering adjusting mode, through charging current configuration and temperature control of the terminal in difference under various conditions, the CPU frequency is reduced, the heating problem of the terminal is further effectively and sensitively solved, and the use experience of a user is improved.

Fig. 1b is a flowchart illustrating a method for adjusting a heating condition of a mobile terminal according to another embodiment of the present invention, and the method for adjusting a heating condition of a mobile terminal according to some embodiments of the present invention is described below with reference to fig. 1 b.

In an embodiment of the present invention, as shown in fig. 1b, preferably, the step of adjusting the mobile terminal according to the first handheld listening adjustment mode includes:

step 1600, judging whether the call mode of the mobile terminal is a hand-held non-hands-free call;

step 1602, when the call mode of the mobile terminal is a handheld non-hands-free call, adjusting the charging current of the mobile terminal to a second charging rate current;

step 1604, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

step 1606, when the temperature of the heat source position in the face area is greater than a first preset face temperature threshold, stopping background application of the face area device; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the embodiment, whether the call mode of the mobile terminal is a handheld non-hands-free call or not is judged through a distance sensor, when the call mode of the mobile terminal is the handheld non-hands-free call, the charging current is adjusted to be a second charging multiplying factor current, so that the heating condition of the terminal is reduced, and the real-time temperature of the heat source position in the human face area, the real-time temperature of the heat source position in the human ear area and the real-time temperature of the heat source position in the human hand area are detected through an NTC thermistor, when the temperature of the heat source position in the human face area is greater than a first preset human face temperature threshold value, the background application of the device in the human ear area is stopped, when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, the background application of the device in the human hand area is stopped, when the, the second charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal, real-time temperature monitoring of each main heat source position inside the terminal is achieved through NTC thermistors distributed on each heat source position on the mainboard, due to the fact that the terminal belongs to a conversation state, the charging current is smaller than the preset charging multiplying power current, differentiated temperature control is conducted on different heat sources of the terminal by considering the fact that different parts of a human body are different in heat sensitivity degree, the use frequency of a CPU is reduced, and then the heating condition of a corresponding area is reduced.

In an embodiment of the present invention, as shown in fig. 1b, it is preferable that the method further comprises:

step 1608, when the call mode of the mobile terminal is not the hand-held non-hands-free call, adjusting the charging current of the mobile terminal to the first charging rate current;

step 1610, detecting the temperature of the heat source position in the human face area, the temperature of the heat source position in the human ear area and the temperature of the heat source position in the human hand area;

step 1612, stopping background application of the face area devices when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area.

The first charging multiplying power current is larger than the second charging multiplying power current, and the first charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal.

In this embodiment, when the call mode of the mobile terminal is a handheld hands-free call, the charging current of the mobile terminal is adjusted to a first charging rate current, the NTC thermistor is used to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature, when the face area heat source position temperature is greater than a preset handheld temperature threshold, the background application of the face area device is stopped, when the ear area heat source position temperature is greater than the preset handheld temperature threshold, the background application of the ear area device is stopped, when the hand area heat source position temperature is greater than the preset handheld temperature threshold, the background application of the hand area device is stopped, wherein the first charging rate current is less than the preset charging rate current of the mobile terminal. The NTC thermistors distributed at the positions of the heat sources on the mainboard are used for monitoring the real-time temperature of the main heat source positions in the terminal, the charging current is smaller than the preset charging multiplying factor current due to the fact that the terminal is in a conversation state, and in addition, different from the situation of handheld non-hands-free conversation, the terminal can be charged by the first charging multiplying factor current larger than the second charging multiplying factor current, and therefore the heating situation of the terminal is reduced.

In one embodiment of the present invention, as shown in fig. 1b, preferably, the step of adjusting the mobile terminal according to the first non-handheld listening adjusting mode comprises:

1800, charging the mobile terminal according to a preset charging rate current;

step 1802, detecting a face area heat source position temperature, a human ear area heat source position temperature and a human hand area heat source position temperature;

1804, stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the embodiment, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is charged according to the current with the preset charging multiplying power, the NTC thermistor is used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the human face area is greater than the preset maximum temperature threshold, the background application of a device in the human face area is stopped, when the position temperature of the heat source in the human ear area is greater than the preset maximum temperature threshold, the background application of the device in the human hand area is stopped, when the position temperature of the heat source in the human hand area is greater than the preset maximum temperature threshold, the mobile terminal is charged according to the normal current during non-handheld hands-free conversation, and when the temperature monitored by the NTC thermistor at each heat source position exceeds the preset maximum temperature threshold of the, and performing frequency reduction processing on the CPU.

In an embodiment of the present invention, as shown in fig. 1b, preferably, the step of adjusting the mobile terminal according to the second handheld listening adjustment mode includes:

step 1120, judging whether the call mode of the mobile terminal is a hand-held non-hands-free call;

step 1122, when the communication mode of the mobile terminal is a handheld non-hands-free communication, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

step 1124, when the temperature of the heat source position in the face area is greater than a first preset face temperature threshold, stopping background application of the face area device; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In the embodiment, when the answering mode of the mobile terminal is handheld answering, whether the calling mode of the mobile terminal is handheld non-hands-free calling is judged, when the calling mode of the mobile terminal is handheld non-hands-free calling, the NTC thermistor is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the face area is greater than a first preset face temperature threshold value, the background application of a device in the face area is stopped, when the position temperature of the heat source in the ear area is greater than a second preset face temperature threshold value, the background application of the device in the ear area is stopped, when the position temperature of the heat source in the hand area is greater than a third preset face temperature threshold value, the real-time temperature monitoring of each main heat source position in the terminal is realized through the NTC thermistor distributed at each, the different heat sources of the terminal are subjected to differentiated temperature control according to different heat sensitivity degrees of different parts of a human body, the use frequency of a CPU is reduced, and the heating condition of a corresponding area is reduced.

In an embodiment of the present invention, as shown in fig. 1b, it is preferable that the method further comprises:

step 1126, when the communication mode of the mobile terminal is not a hand-held non-hands-free communication, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

1128, stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area.

In the embodiment, when the mobile terminal is in a hand-held hands-free call mode, the NTC thermistor is used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the human face area is greater than a preset hand-held temperature threshold, the background application of a device in the human face area is stopped, when the position temperature of the heat source in the human ear area is greater than the preset hand-held temperature threshold, the background application of the device in the human hand area is stopped, the real-time temperature monitoring of each main heat source position in the terminal is realized through the NTC thermistor distributed at each heat source position on a mainboard, whether the temperature of the area exceeds the preset hand-held temperature threshold or not is judged during the hand-held call, and when the temperature exceeds the preset hand-held temperature threshold, the background, therefore, the heating condition of the terminal is reduced, and the frequency of a CPU is reduced.

In an embodiment of the present invention, as shown in fig. 1b, preferably, the step of adjusting the mobile terminal according to the second non-handheld listening adjusting manner includes:

step 1140, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a human hand area;

step 1142, when the temperature of the heat source position in the face area is greater than a preset maximum temperature threshold, stopping background application of the face area device; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In the embodiment, when the answering mode of the mobile terminal is non-handheld answering, the NTC thermistor is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area, when the position temperature of the heat source in the face area is greater than a preset maximum temperature threshold, the background application of a device in the face area is stopped, when the position temperature of the heat source in the ear area is greater than the preset maximum temperature threshold, the background application of the device in the hand area is stopped, and when the position temperature of the heat source in the hand area is greater than the preset maximum temperature threshold, the NTC thermistor distributed at each heat source position on a mainboard is used for monitoring the real-time temperature of each main heat source position in the terminal.

In a second aspect of the present invention, an apparatus 200 for adjusting a heating condition of a mobile terminal is provided, fig. 2 is a block diagram illustrating an exemplary embodiment of the apparatus 200 for adjusting a heating condition of a mobile terminal, and the apparatus 200 for adjusting a heating condition of a mobile terminal according to some embodiments of the present invention is described below with reference to fig. 2.

The first judging module 202 is configured to judge whether the mobile terminal is in a charging state or not when the mobile terminal has an incoming call and answers the incoming call;

the second judging module 204 is configured to judge whether the answering mode of the mobile terminal is handheld answering or not when the mobile terminal is in a charging state;

the first processing module 206 is configured to adjust the mobile terminal according to a first handheld answering adjustment mode when the answering mode of the mobile terminal is handheld answering; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode.

The device 200 for adjusting the heating status of the mobile terminal provided by the invention judges whether the mobile terminal is in a charging state or not through the first judging module 202 under the condition that the mobile terminal has an incoming call and answers, judges whether the answering mode of the mobile terminal is handheld answering or not through the second judging module 204 when the mobile terminal is in the charging state, adjusts the mobile terminal according to the first handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering, adjusts the mobile terminal according to the first non-handheld answering adjusting mode when the answering mode of the mobile terminal is non-handheld answering, realizes differentiated control of the temperature of different areas of the terminal according to different sensitivity degrees of human bodies to the temperature under different conversation scenes, reduces the CPU frequency, and further more efficiently and sensitively solves the heating problem of the terminal, the use experience of the user is improved.

In one embodiment of the present invention, as shown in fig. 2, preferably, the first processing module 206 includes:

a third determining module 2062, configured to determine whether the call mode of the mobile terminal is a handheld non-hands-free call;

the first processing module 206 is further configured to adjust the charging current of the mobile terminal to a second charging rate current when the call mode of the mobile terminal is a handheld non-hands-free call;

a detection module 2064, configured to detect a face area heat source position temperature, a ear area heat source position temperature, and a hand area heat source position temperature;

the second processing module 2066 is configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the first preset face temperature threshold; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In this embodiment, whether the call mode of the mobile terminal is a handheld non-hands-free call is determined by the third determination module 2062, when the call mode of the mobile terminal is a handheld non-hands-free call, the first processing module 206 adjusts the charging current to the second charging rate current, so as to reduce the heating condition of the terminal, and detects the real-time temperature of the heat source position in the face area, the real-time temperature of the heat source position in the ear area, and the real-time temperature of the heat source position in the hand area by the detection module 2064, when the temperature of the heat source position in the face area is greater than the first preset face temperature threshold, the second processing module 2066 stops the background application of the face area device, when the temperature of the heat source position in the ear area is greater than the second preset face temperature threshold, the background application of the face area device is stopped, when the temperature of the heat source position in the hand area is, and stopping background application of devices in the human hand area, wherein the second charging rate current is smaller than the preset charging rate current of the mobile terminal, real-time temperature monitoring of each main heat source position in the terminal is realized through NTC thermistors distributed at each heat source position on the mainboard, and because the terminal belongs to a conversation state, the charging current is smaller than the preset charging rate current, and differential temperature control is carried out on different heat sources of the terminal by considering the difference of heat sensitivity degrees of different parts of a human body, so that the use frequency of a CPU is reduced, and further the heating condition of the corresponding area is reduced.

In one embodiment of the present invention, as shown in fig. 2, preferably,

the first processing module 206 is further configured to adjust the charging current of the mobile terminal to a first charging rate current when the call mode of the mobile terminal is not a handheld non-hands-free call;

the detection module 2064 is further configured to detect a face area heat source position temperature, a human ear area heat source position temperature, and a human hand area heat source position temperature;

the second processing module 2066 is further configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area. The first charging multiplying power current is larger than the second charging multiplying power current, and the first charging multiplying power current is smaller than the preset charging multiplying power current of the mobile terminal.

In this embodiment, when the call mode of the mobile terminal is a hand-held hands-free call, the first processing module 206 adjusts the charging current of the mobile terminal to a first charging rate current, and detects the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature by using the detection module 2064, when the face area heat source position temperature is greater than a preset hand-held temperature threshold, the second processing module 2066 stops the background application of the face area device, when the ear area heat source position temperature is greater than the preset hand-held temperature threshold, the background application of the ear area device, and when the hand area heat source position temperature is greater than the preset hand-held temperature threshold, the background application of the hand area device is stopped, wherein the first charging rate current is less than the preset charging rate current of the mobile terminal. The NTC thermistors distributed at the positions of the heat sources on the mainboard are used for monitoring the real-time temperature of the main heat source positions in the terminal, the charging current is smaller than the preset charging multiplying factor current due to the fact that the terminal is in a conversation state, and in addition, different from the situation of handheld non-hands-free conversation, the terminal can be charged by the first charging multiplying factor current larger than the second charging multiplying factor current, and therefore the heating situation of the terminal is reduced.

In one embodiment of the present invention, as shown in fig. 2, preferably,

the first processing module 206 is further configured to charge the mobile terminal according to the preset charging rate current when the answering mode of the mobile terminal is non-handheld answering;

the detection module 2064 is further configured to detect a face area heat source position temperature, a human ear area heat source position temperature, and a human hand area heat source position temperature;

the second processing module 2066 is further configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the preset maximum temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In this embodiment, when the mobile terminal is not handed, the first processing module 206 charges the mobile terminal according to a preset charging rate current, and uses the detection module 2064 to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature, when the face area heat source position temperature is greater than a preset maximum temperature threshold, the second processing module 2066 stops the background application of the face area device, when the ear area heat source position temperature is greater than the preset maximum temperature threshold, the background application of the ear area device is stopped, when the hand area heat source position temperature is greater than the preset maximum temperature threshold, the background application of the hand area device is stopped, when the hand area heat source position temperature is greater than the preset maximum temperature threshold, the mobile terminal is charged according to a normal current during a non-handed conversation, and when the NTC thermistor monitoring temperature at each heat source position exceeds the preset maximum temperature threshold of the system, and freezing the application of the corresponding application of the terminal background, and performing frequency reduction processing on the CPU.

In one embodiment of the present invention, as shown in fig. 2, preferably,

the second judging module 204 is further configured to judge whether the answering mode of the mobile terminal is handheld answering or not when the mobile terminal is not in the charging state;

the first processing module 206 is further configured to adjust the mobile terminal according to a second handheld answering adjustment mode when the answering mode of the mobile terminal is handheld answering; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode.

In this embodiment, when the mobile terminal is not in a charging state, the second determining module 204 determines whether the answering mode of the mobile terminal is handheld answering or not, when the answering mode of the mobile terminal is handheld answering, the first processing module 206 adjusts the mobile terminal according to the second handheld answering adjusting mode, when the answering mode of the mobile terminal is non-handheld answering, the mobile terminal is adjusted according to the second non-handheld answering adjusting mode, the CPU frequency is reduced through differentiated charging current configuration and temperature control of the terminal under various conditions, so that the heating problem of the terminal is solved more efficiently and sensitively, and the use experience of a user is improved.

In one embodiment of the present invention, as shown in fig. 2, preferably, the first processing module 206 includes:

the third determining module 2062 is further configured to determine whether the call mode of the mobile terminal is a handheld non-hands-free call when the answer mode of the mobile terminal is a handheld answer;

the detecting module 2064 is further configured to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature when the call mode of the mobile terminal is a handheld non-hands-free call;

the second processing module 2066 is further configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the first preset face temperature threshold; when the temperature of the heat source position in the human ear area is greater than a second preset human face temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position in the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

In this embodiment, when the answering mode of the mobile terminal is handheld, the third determining module 2062 determines whether the calling mode of the mobile terminal is handheld non-hands-free calling, when the calling mode of the mobile terminal is handheld non-hands-free calling, the detecting module 2064 is used to detect the face area heat source position temperature, the ear area heat source position temperature and the hand area heat source position temperature, the second processing module 2066 stops the background application of the face area device when the face area heat source position temperature is greater than the first preset face temperature threshold, stops the background application of the ear area device when the ear area heat source position temperature is greater than the second preset face temperature threshold, stops the background application of the hand area device when the hand area heat source position temperature is greater than the third preset face temperature threshold, and realizes the real-time temperature monitoring of each main heat source position inside the terminal through the NTC thermistors distributed at each heat source position on the main board, the different heat sources of the terminal are subjected to differentiated temperature control according to different heat sensitivity degrees of different parts of a human body, the use frequency of a CPU is reduced, and the heating condition of a corresponding area is reduced.

In one embodiment of the present invention, as shown in fig. 2, preferably,

the detecting module 2064 is further configured to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature when the call mode of the mobile terminal is not a handheld non-hands-free call;

the second processing module 2066 is further configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the preset handheld temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset handheld temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset hand-held temperature threshold value, stopping background application of the device in the hand area.

In this embodiment, when the mobile terminal is in a hand-held hands-free call mode, the detection module 2064 is used to detect the face region heat source position temperature, the ear region heat source position temperature and the hand region heat source position temperature, the second processing module 2066 stops the background application of the face region device when the face region heat source position temperature is greater than the preset hand-held temperature threshold, stops the background application of the ear region device when the ear region heat source position temperature is greater than the preset hand-held temperature threshold, stops the background application of the hand region device when the hand region heat source position temperature is greater than the preset hand-held temperature threshold, monitors the real-time temperature of each main heat source position in the terminal through the NTC thermistors distributed at each heat source position on the motherboard, determines whether the region temperature exceeds the preset hand-held temperature threshold when the hand-held call mode is performed, freezes the background application of the corresponding region when the region temperature exceeds the preset hand-held temperature threshold, therefore, the heating condition of the terminal is reduced, and the frequency of a CPU is reduced.

In an embodiment of the present invention, as shown in fig. 2, preferably, the first processing module 206 further includes:

the detecting module 2064 is further configured to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature when the answering mode of the mobile terminal is non-handheld answering;

the second processing module 2066 is further configured to stop the background application of the face area device when the temperature of the heat source position in the face area is greater than the preset maximum temperature threshold; stopping background application of the ear region device when the temperature of the heat source position in the ear region is greater than a preset maximum temperature threshold; and when the temperature of the heat source position in the hand area is greater than a preset maximum temperature threshold value, stopping background application of the hand area device.

In this embodiment, when the mobile terminal is not handed, the detection module 2064 is used to detect the face area heat source position temperature, the ear area heat source position temperature, and the hand area heat source position temperature, the second processing module 2066 stops the background application of the face area device when the face area heat source position temperature is greater than the preset maximum temperature threshold, stops the background application of the ear area device when the ear area heat source position temperature is greater than the preset maximum temperature threshold, and stops the background application of the hand area device when the hand area heat source position temperature is greater than the preset maximum temperature threshold, and the NTC thermistors distributed at the heat source positions on the motherboard realize real-time temperature monitoring of the main heat source positions inside the terminal.

In an embodiment of the third aspect of the present invention, a terminal 300 is proposed, and fig. 3 shows a schematic block diagram of the terminal 300 according to an embodiment of the present invention:

the processor 302, the charging interface 304 and the memory 306 are connected through a bus, the memory 306 stores computer instructions, and the processor 302 executes the computer instructions to realize the following method: judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers; when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not; when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode; and when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode.

The terminal provided by the invention comprises: the processor 302, the charging interface 304 and the memory 306 are connected through a bus, the memory 306 stores computer instructions, and the processor 302 executes the computer instructions to realize the following method: the method comprises the steps of judging whether a mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers, judging whether the answering mode of the mobile terminal is handheld answering or not through an acceleration sensor, a gyroscope and an air pressure sensor when the mobile terminal is in the charging state, adjusting the mobile terminal according to a first handheld answering adjusting mode when the answering mode of the mobile terminal is handheld answering, adjusting the mobile terminal according to the first non-handheld answering adjusting mode when the answering mode of the mobile terminal is non-handheld answering, realizing differentiated control on temperatures of different areas of the terminal according to different temperature sensitivity degrees of a human body under different conversation scenes, reducing CPU frequency, further solving the heating problem of the terminal more efficiently and sensitively, and improving the use experience of a user.

In the first specific embodiment, the situation that the terminal is close to the human face and human ear area when the non-hands-free call is held by the hand is not considered in the existing scheme, and in fact, the human face and human ear area is the area where the human body is most sensitive to the temperature, so that the heating situation of the terminal needs to be optimally controlled in the non-hands-free call scene; in addition, the existing scheme only controls the heating of the whole terminal when the terminal is charged, and does not consider the temperature control strategy of carrying out differentiation on different heat sources in different regions of the whole terminal according to different use scenes according to the difference of temperature sensitivity degrees of different regions such as human ears, human faces, human hands and the like.

The technical scheme provides a method and a device for adjusting the heating condition of a mobile terminal, wherein a CPU (central processing unit), an acceleration sensor, a gyroscope and an air pressure sensor are used for judging whether the terminal is in a handheld mode or not, a CPU and an optical distance sensor are used for judging whether a user adopts a handheld non-hands-free mode for communication, NTC (negative temperature coefficient) thermistors at different heat source positions in the terminal are used for monitoring the real-time temperature of different areas of the terminal, and then different heat sources of the terminal are subjected to differentiated temperature control according to whether the terminal is in a charging mode or not and according to the difference of the heat sensitivity degrees of different parts of a.

The terminal complete machine can be divided into a human ear area, a human face area and a human hand area according to different use scenes of users, wherein the human ear area is an area which is 3cm below a receiver and the receiver, the human face area is an area which is 3cm to 6cm below the receiver, and the human hand area is an area which is below the human face area and a back shell of the terminal. The sensitivity of the human ear area, the sensitivity of the human face area and the sensitivity of the human hand area to the terminal temperature are different, so that the control of the voice non-hands-free call to the terminal temperature is different under the charging and non-charging conditions. Table 1 is a terminal position division table, and it should be noted that specific ambient temperature and temperature increase standard values in table 1 may be confidential and are removed.

TABLE 1

Fig. 4a shows a schematic block diagram of a front heat source component of a terminal according to an embodiment of the present invention, where a main heat source component of the front of the terminal mainly includes a main chip of a TD module, PMU, AP, HD, LCD, and LED, and a secondary heat source component of the front of the terminal mainly includes a memory, and fig. 4b shows a schematic block diagram of a back heat source component of a terminal according to an embodiment of the present invention, where the main heat source component of the back of the terminal mainly includes a camera, a flash lamp, and an RF power amplifier, the secondary heat source component of the back of the terminal mainly includes an RF transceiver and a CODEC chip, and a crystal oscillator on the back of the terminal is susceptible to temperature to polarization. It should be noted that the distribution of the heat source of the terminal is related to the structure of the specific project and the PCB layout.

In a second embodiment, a method for adjusting a heating status of a mobile terminal in accordance with a second embodiment of the present invention:

1. judging whether an incoming call exists or not, whether the incoming call exists or not and whether the terminal is in a charging state at present or not through a CPU;

2. when an incoming call is answered and in a charging state, judging whether a user answers in a handheld mode or not through an acceleration sensor, a gyroscope and an air pressure sensor, if not, executing operation 1, and if so, executing judgment 1;

operation 1: and charging according to the normal charging current, if the temperature monitored by the NTC thermistors at the positions of the heat sources does not exceed the maximum temperature threshold set by the system, the corresponding application of the background of the terminal does not freeze, and the CPU does not perform frequency reduction processing.

Judgment 1: and (3) judging whether the user calls in a hand-held non-hands-free mode (namely, the user holds the phone close to the face) or not through a distance sensor (PS), if not, executing operation 2, and if so, executing operation 4.

Operation 2:

(1) adjusting the terminal charging current to n1C (0< n1< m, C is the battery charging rate, mc is the charging rate supported by the terminal itself, m is a natural number greater than 0);

(2) when the temperature monitored by the NTC thermistors at the positions of the heat sources is greater than a handheld temperature threshold, freezing background application and reducing the frequency of a CPU (Central processing Unit);

and operation 4:

(1) adjusting the terminal charging current to n2C (0< n2<0.2, C is the battery charging rate), n2< n 1;

(2) when the temperature monitored by the NTC thermistor at the heat source position in the human face area is greater than the human face temperature threshold value or the temperature monitored by the NTC thermistor at the heat source position in the human ear area is greater than the human face temperature threshold value or the temperature monitored by the NTC thermistor at the heat source position in the human hand area is greater than the human face temperature threshold value, freezing the background application using the corresponding area device, and reducing the CPU frequency;

3. when the terminal is in a non-charging state, judging whether a user answers in a handheld mode or not through an acceleration sensor, a gyroscope and an air pressure sensor, if not, executing operation 3, and if so, continuing to execute judgment 1;

operation 3: if the temperature monitored by the NTC thermistors at the positions of the heat sources does not exceed the maximum temperature threshold set by the system, the corresponding application of the background of the terminal does not carry out application freezing, and the CPU does not carry out frequency reduction processing.

Judgment 1: and judging whether the user calls in a hand-held non-hands-free mode (namely, the user holds the phone close to the face) or not through a distance sensor (PS), and if not, executing operation 5, and if so, executing operation 6.

Operation 5: when the temperature monitored by the NTC thermistor at the heat source position in the human face area is greater than the human face temperature threshold value or the temperature monitored by the NTC thermistor at the heat source position in the human ear area is greater than the human face temperature threshold value or the temperature monitored by the NTC thermistor at the heat source position in the human hand area is greater than the human face temperature threshold value, freezing the background application using the corresponding area device, and reducing the CPU frequency;

operation 6: when the temperature monitored by the NTC thermistors at the positions of the heat sources is greater than the handheld temperature threshold, background application is frozen, and the CPU frequency is reduced.

The method and the device for adjusting the heating condition of the terminal during the terminal conversation have the following beneficial effects: the judgment of different scenes during voice call is realized through the CPU and various sensors; the real-time temperature monitoring of each main heat source position in the terminal is realized through the NTC thermistors distributed at each heat source position on the mainboard; under different call scenes, according to different temperature sensitivity degrees of human bodies, the differentiated control of the temperature of different areas of the terminal is realized; and the user experience is improved by differentiated temperature control.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. A method for adjusting the heating condition of a mobile terminal is characterized by comprising the following steps:

judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers;

when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not;

when the answering mode of the mobile terminal is the handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode;

when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode;

when the mobile terminal is not in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not;

when the answering mode of the mobile terminal is the handheld answering, adjusting the mobile terminal according to a second handheld answering adjusting mode;

when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode;

detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area;

and according to different temperature sensitivity degrees of the human body, carrying out differentiated control on the temperatures of different areas of the terminal.

2. The method of claim 1, wherein the step of adjusting the mobile terminal according to the first handheld listening adjustment mode comprises:

judging whether the call mode of the mobile terminal is a handheld non-hands-free call;

when the call mode of the mobile terminal is the handheld non-hands-free call, adjusting the charging current of the mobile terminal to a second charging rate current;

when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold value, stopping background application of face area devices;

stopping background application of the human ear region device when the temperature of the position of the heat source in the human ear region is greater than a second preset human face temperature threshold value;

and when the temperature of the heat source position of the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

3. The method for adjusting the heating status of a mobile terminal according to claim 2, further comprising:

when the call mode of the mobile terminal is not the handheld non-hands-free call, adjusting the charging current of the mobile terminal to a first charging multiplying factor current;

detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area;

when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold value, stopping background application of the face area device;

when the temperature of the heat source position in the human ear area is greater than the preset handheld temperature threshold value, stopping background application of the human ear area device;

when the temperature of the heat source position of the hand area is greater than the preset handheld temperature threshold value, stopping background application of the hand area device;

the first charging multiplying factor current is larger than the second charging multiplying factor current, and the first charging multiplying factor current is smaller than the preset charging multiplying factor current of the mobile terminal.

4. The method of claim 1, wherein the step of adjusting the mobile terminal according to the first non-handheld listening adjustment mode comprises:

charging the mobile terminal according to the preset charging multiplying power current;

detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area;

when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold value, stopping background application of the face area device;

when the temperature of the heat source position in the human ear area is greater than the preset maximum temperature threshold value, stopping background application of the human ear area device;

and when the temperature of the heat source position of the hand area is greater than the preset maximum temperature threshold value, stopping background application of the hand area device.

5. The method of claim 1, wherein the step of adjusting the mobile terminal according to the second handheld listening adjustment mode comprises:

judging whether the call mode of the mobile terminal is the handheld non-hands-free call;

when the call mode of the mobile terminal is the hand-held non-hands-free call, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold value, stopping background application of face area devices;

stopping background application of the human ear region device when the temperature of the position of the heat source in the human ear region is greater than a second preset human face temperature threshold value;

and when the temperature of the heat source position of the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

6. The method for adjusting the heating status of a mobile terminal according to claim 5, further comprising:

when the call mode of the mobile terminal is not the hand-held non-hands-free call, detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold value, stopping background application of the face area device;

when the temperature of the heat source position in the human ear area is greater than the preset handheld temperature threshold value, stopping background application of the human ear area device;

and when the temperature of the heat source position of the hand area is greater than the preset handheld temperature threshold value, stopping background application of the hand area device.

7. The method of claim 1, wherein the step of adjusting the mobile terminal according to the second non-handheld listening adjustment mode comprises:

detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area; when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold value, stopping background application of the face area device;

when the temperature of the heat source position in the human ear area is greater than the preset maximum temperature threshold value, stopping background application of the human ear area device;

and when the temperature of the heat source position of the hand area is greater than the preset maximum temperature threshold value, stopping background application of the hand area device.

8. An apparatus for adjusting a heating condition of a mobile terminal, comprising:

the first judgment module is used for judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers the incoming call;

the second judging module is used for judging whether the answering mode of the mobile terminal is handheld answering or not when the mobile terminal is in a charging state;

the first processing module is used for adjusting the mobile terminal according to a first handheld answering adjusting mode when the answering mode of the mobile terminal is the handheld answering; when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode;

the second judging module is further configured to judge whether an answering mode of the mobile terminal is the handheld answering or not when the mobile terminal is not in a charging state;

the first processing module is further configured to adjust the mobile terminal according to a second handheld answering adjustment mode when the answering mode of the mobile terminal is the handheld answering; when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode;

the detection module is used for detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area;

and according to different temperature sensitivity degrees of the human body, carrying out differentiated control on the temperatures of different areas of the terminal.

9. The apparatus for adjusting a heating condition of a mobile terminal according to claim 8, wherein the first processing module comprises:

the third judging module is used for judging whether the call mode of the mobile terminal is a handheld non-hands-free call;

the first processing module is further configured to adjust the charging current of the mobile terminal to a second charging rate current when the call mode of the mobile terminal is the handheld non-hands-free call;

the second processing module is used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold; stopping background application of the human ear region device when the temperature of the position of the heat source in the human ear region is greater than a second preset human face temperature threshold value; and when the temperature of the heat source position of the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

10. The apparatus for adjusting the heating status of a mobile terminal according to claim 9,

the first processing module is further configured to adjust the charging current of the mobile terminal to a first charging rate current when the call mode of the mobile terminal is not the handheld non-hands-free call;

the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

the second processing module is further used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; when the temperature of the heat source position in the human ear area is greater than the preset handheld temperature threshold value, stopping background application of the human ear area device; when the temperature of the heat source position of the hand area is greater than the preset handheld temperature threshold value, stopping background application of the hand area device;

the first charging multiplying factor current is larger than the second charging multiplying factor current, and the first charging multiplying factor current is smaller than the preset charging multiplying factor current of the mobile terminal.

11. The apparatus for adjusting the heating status of a mobile terminal according to claim 8,

the first processing module is further configured to charge the mobile terminal according to the preset charging rate current when the answering mode of the mobile terminal is non-handheld answering;

the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area;

the second processing module is further used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold; when the temperature of the heat source position in the human ear area is greater than the preset maximum temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position of the hand area is greater than the preset maximum temperature threshold value, stopping background application of the hand area device.

12. The apparatus for adjusting a heating condition of a mobile terminal according to claim 8, wherein the first processing module comprises:

the third judging module is further configured to judge whether the call mode of the mobile terminal is the handheld non-hands-free call when the answer mode of the mobile terminal is the handheld answer;

the detection module is further used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a human hand area when the call mode of the mobile terminal is the hand-held non-hands-free call;

the second processing module is further used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a first preset face temperature threshold; stopping background application of the human ear region device when the temperature of the position of the heat source in the human ear region is greater than a second preset human face temperature threshold value; and when the temperature of the heat source position of the hand area is greater than a third preset face temperature threshold value, stopping background application of the hand area device.

13. The apparatus for adjusting heating status of a mobile terminal according to claim 12,

the detection module is further used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a human hand area when the call mode of the mobile terminal is not the hand-held non-hands-free call;

the second processing module is further used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset handheld temperature threshold; when the temperature of the heat source position in the human ear area is greater than the preset handheld temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position of the hand area is greater than the preset handheld temperature threshold value, stopping background application of the hand area device.

14. The apparatus for adjusting a heating condition of a mobile terminal according to claim 8, wherein the first processing module further comprises:

the detection module is also used for detecting the position temperature of a heat source in a human face area, the position temperature of a heat source in a human ear area and the position temperature of a heat source in a human hand area when the answering mode of the mobile terminal is the non-handheld answering;

the second processing module is further used for stopping background application of the face area device when the temperature of the heat source position of the face area is greater than a preset maximum temperature threshold; when the temperature of the heat source position in the human ear area is greater than the preset maximum temperature threshold value, stopping background application of the human ear area device; and when the temperature of the heat source position of the hand area is greater than the preset maximum temperature threshold value, stopping background application of the hand area device.

15. A terminal, comprising:

the processor, the charging interface and the memory are connected through a bus, a computer instruction is stored in the memory, and the processor executes the computer instruction to realize the following method:

judging whether the mobile terminal is in a charging state or not under the condition that the mobile terminal has an incoming call and answers;

when the mobile terminal is in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not;

when the answering mode of the mobile terminal is the handheld answering, adjusting the mobile terminal according to a first handheld answering adjusting mode;

when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a first non-handheld answering adjusting mode;

when the mobile terminal is not in a charging state, judging whether the answering mode of the mobile terminal is handheld answering or not;

when the answering mode of the mobile terminal is the handheld answering, adjusting the mobile terminal according to a second handheld answering adjusting mode;

when the answering mode of the mobile terminal is non-handheld answering, adjusting the mobile terminal according to a second non-handheld answering adjusting mode;

detecting the position temperature of a heat source in a face area, the position temperature of a heat source in an ear area and the position temperature of a heat source in a hand area;

and according to different temperature sensitivity degrees of the human body, carrying out differentiated control on the temperatures of different areas of the terminal.

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