WO2017016465A1 - 一种功率分配方法及终端、存储介质 - Google Patents

一种功率分配方法及终端、存储介质 Download PDF

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Publication number
WO2017016465A1
WO2017016465A1 PCT/CN2016/091645 CN2016091645W WO2017016465A1 WO 2017016465 A1 WO2017016465 A1 WO 2017016465A1 CN 2016091645 W CN2016091645 W CN 2016091645W WO 2017016465 A1 WO2017016465 A1 WO 2017016465A1
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Prior art keywords
target device
power allocation
devices
terminal
current temperature
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PCT/CN2016/091645
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English (en)
French (fr)
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田军
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中兴通讯股份有限公司
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Publication of WO2017016465A1 publication Critical patent/WO2017016465A1/zh

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof

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  • the present invention relates to the field of mobile communications, and in particular, to a power allocation method, a terminal, and a storage medium.
  • the mobile terminal in order to meet the requirements of portability, has a relatively close circuit board layout, and does not have a cooling and cooling terminal such as a fan, and mainly relies on copper on the main board to dissipate heat, that is, the main board of the mobile terminal dissipates heat over a full area.
  • the temperature is the same everywhere.
  • the above-mentioned conventional heat dissipation scheme of the mobile terminal can shut down the device when the device reaches the limit temperature, effectively avoiding possible hardware failures and protecting the electronic device.
  • the embodiments of the present invention provide a power allocation method, a terminal, and a storage medium, which can realize reasonable allocation of power of different devices, and achieve the purpose of effectively protecting the device while maintaining high performance of the terminal.
  • the embodiment of the invention provides a power allocation method, which is applied to a terminal, and the method includes:
  • N is an integer greater than or equal to 2;
  • the detection result performs a power allocation operation on the target device when the target device satisfies a power allocation policy.
  • the method further includes: acquiring a current temperature value of the target device;
  • the detecting whether the target device meets a power allocation strategy, and obtaining a detection result includes:
  • the target device When the current temperature value of the target device is not within the over temperature control range, it is determined that the target device satisfies a power allocation strategy.
  • the detecting whether the target device satisfies the power allocation strategy, and obtaining the detection result further includes:
  • the target device When all of the N devices except the target device are in an off state, it is determined that the target device satisfies a power allocation strategy.
  • the detecting whether the target device satisfies the power allocation strategy, and obtaining the detection result further includes:
  • the target device is determined to satisfy a power allocation policy when a current temperature of the neighboring device does not exceed a temperature threshold.
  • the method further includes:
  • the defective device When there is a defective device among the N devices, the defective device is excluded.
  • An embodiment of the present invention further provides a terminal, where the terminal includes N devices and a state machine, where the N devices include a target device, and N is an integer greater than or equal to 2;
  • the target device is configured to send a power allocation request to the state machine
  • the state machine is configured to receive a power allocation request of the target device, detect whether the target device satisfies a power allocation policy, and obtain a detection result; and when the detection result is that the target device meets a power allocation policy, perform the target Power distribution operation of the device.
  • the terminal further includes a temperature sensor
  • the state machine is further configured to acquire a current temperature value of the target device from the temperature sensor;
  • the state machine detects whether the target device meets a power allocation policy, and obtains a detection result, including:
  • the target device When the current temperature value of the target device is not within the over temperature control range, it is determined that the target device satisfies a power allocation strategy.
  • the state machine is further configured to detect, when the current temperature value of the target device is within an over temperature control range, whether other devices except the target device of the N devices are a shutdown state; determining that the target device satisfies a power allocation policy when all of the N devices except the target device are in an off state.
  • the state machine is further configured to: when the devices other than the target device of the N devices are not all in the off state, combine the hardware layout of the terminal with the target
  • the temperature condition of the adjacent device corresponding to the target device detects whether the current temperature of the adjacent device exceeds a temperature threshold; when the current temperature of the adjacent device does not exceed the temperature threshold, determining that the target device satisfies the power allocation strategy.
  • the state machine is further configured to perform qualification detection on N devices in the terminal; when there are defective devices in the N devices, the unqualified device is excluded.
  • the embodiment of the present invention further provides a storage medium, where the storage medium includes executable instructions, and the executable instructions are used in the power allocation method provided by the embodiment of the present invention.
  • the power distribution method and the terminal and the storage medium provided by the embodiment of the present invention receive a power allocation request of the target device, detect whether the target device satisfies a power allocation policy, and obtain a detection result; the detection result is that the target device meets the power.
  • a power allocation operation to the target device is performed. Based on the power allocation strategy, the corresponding power of different devices can be allocated reasonably, and the purpose of effectively protecting the device is achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • FIG. 1 is a schematic flowchart 1 of an implementation process of a power allocation method according to an embodiment of the present invention
  • FIG. 2 is a schematic diagram 1 of distribution of different devices in a terminal according to an embodiment of the present invention
  • FIG. 3 is a second schematic diagram of an implementation process of a power allocation method according to an embodiment of the present invention.
  • FIG. 4 is a second schematic diagram of distribution of different devices in a terminal according to an embodiment of the present invention.
  • FIG. 5 is a schematic flowchart 3 of an implementation process of a power allocation method according to an embodiment of the present invention.
  • FIG. 6 is a schematic diagram 4 of an implementation flow of a power allocation method according to an embodiment of the present invention.
  • FIG. 7 is a schematic diagram 5 of an implementation flow of a power allocation method according to an embodiment of the present invention.
  • FIG. 8 is a schematic structural diagram of a terminal of an embodiment of the present invention.
  • receiving a power allocation request of a target device detecting the target Whether the device satisfies the power allocation strategy, and obtains a detection result; when the detection device satisfies the power allocation strategy, the power distribution operation on the target device is performed.
  • Embodiment 1 is a diagrammatic representation of Embodiment 1:
  • FIG. 1 is a schematic flowchart 1 of an implementation process of a power allocation method according to an embodiment of the present invention, and is applied to a terminal.
  • a power allocation method according to an embodiment of the present invention includes:
  • Step S101 Receive a power allocation request of the target device.
  • the target device is one of N devices in the terminal; N is an integer greater than or equal to 2;
  • the target device when there is a change in the load of the target device in the terminal, the target device initiates a power allocation request to the state machine in the terminal.
  • FIG. 2 is a schematic diagram 1 of a distribution of different devices in a terminal, wherein the device may include a MODEM RF device, an APP processor, a Wi-Fi device, and a charging circuit component. It should be noted that, in practical applications, the distribution of different devices in the terminal may be different from that shown in FIG. 2 .
  • the target device refers to a device in which a load changes in the terminal.
  • the terminal includes a mobile terminal and a non-mobile terminal, and the non-mobile terminal includes a desktop computer, and the mobile terminal includes a smart phone, a tablet computer, a notebook computer, a personal digital assistant, and the like.
  • Step S102 detecting whether the target device meets a power allocation policy, and obtaining a detection result
  • the state machine in the terminal After receiving the power allocation request of the target device, the state machine in the terminal detects whether the target device satisfies the power allocation policy, and obtains the detection result.
  • the power allocation policy is preset by the terminal, and the power allocation strategy relates to whether excessive temperature control, related terminal user operations, hardware layout, and the like are required.
  • the power allocation strategy includes that the current temperature value of the target device is not within the over temperature control range, and all of the N devices except the target device are in a closed state, and the terminal hardware layout is The temperature of the adjacent device corresponding to the target device does not exceed the temperature threshold or the like.
  • the state machine in the terminal may determine whether the current temperature value of the target device is within the over temperature control range according to whether an over temperature control factor is required, or may determine the location according to the related terminal user operation.
  • the devices other than the target device among the N devices are in a closed state, and determining whether the temperature of the adjacent device corresponding to the target device on the hardware layout of the terminal exceeds a temperature threshold according to a hardware layout factor, Detecting whether the target device satisfies a power allocation policy.
  • Step S103 When the detection result is that the target device satisfies a power allocation policy, perform a power allocation operation on the target device.
  • the power allocation operation to the target device is performed in response to the power allocation request of the target device.
  • the power allocation method of the embodiment of the present invention receives a power allocation request of a target device, detects whether the target device satisfies a power allocation policy, and obtains a detection result; and the detection result is performed when the target device meets a power allocation policy, A power allocation operation to the target device.
  • a reasonable allocation of power corresponding to different electronic devices can be realized, and the purpose of effectively protecting the device can be achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • Embodiment 2 is a diagrammatic representation of Embodiment 1:
  • FIG. 3 is a schematic diagram of an implementation flow of a power allocation method according to an embodiment of the present invention, and is applied to a terminal.
  • the power allocation method in the embodiment of the present invention includes:
  • Step S301 Receive a power allocation request of the target device.
  • the target device is one of N devices in the terminal; N is an integer greater than or equal to 2;
  • the target device when there is a change in the load of the target device in the terminal, the target device initiates a power allocation request to the state machine in the terminal.
  • FIG. 4 is a schematic diagram 2 showing the distribution of different devices in the terminal, wherein the device may include a modem (MODEM) radio frequency device, an application (APP) processor, a Wi-Fi device, and a charging circuit component.
  • MODEM modem
  • APP application
  • Wi-Fi Wi-Fi
  • charging circuit component a charging circuit component
  • different devices in the corresponding terminal are respectively provided with temperature sensors; wherein, the temperature sensor 1 collects the power consumption heat generated on the charging circuit, and the temperature sensor 2 collects the power consumption generated on the MODEM RF device. Heat, temperature sensor 3 will collect the power consumption heat generated on the APP processor, and temperature sensor 4 will collect the power consumption heat on the Wi-Fi device.
  • the temperature sensors 1 to 4 may be external sensors or internal sensors, or may be different types of temperature sensors.
  • the purpose of the temperature sensors 1 to 4 is to collect temperature values on the corresponding devices.
  • the target device refers to a device in which a load changes in the terminal.
  • Step S302 Acquire a current temperature value of the target device.
  • the state machine in the terminal acquires the current temperature value of the target device from a temperature sensor corresponding to the target device.
  • Step S303 detecting whether the current temperature value of the target device is within an over temperature control range
  • the state machine detects whether a current temperature value of the target device is within an over temperature control range; when a current temperature value of the target device is not within an over temperature control range, Determining that the target device satisfies a power allocation policy; otherwise, it is further determined whether the target device satisfies a power allocation policy according to an associated terminal user operation.
  • Step S304 Perform a power allocation operation on the target device when the current temperature value of the target device is not within the over temperature control range.
  • a power allocation request of a target device Receiving, by the power allocation method of the embodiment of the present invention, a power allocation request of a target device; acquiring a current temperature value of the target device; and determining, according to detecting whether the current temperature value is within an over temperature control range, determining the target device Whether the power allocation strategy is satisfied; when the current temperature value of the target device is not within the over temperature control range, a power allocation operation to the target device is performed.
  • a reasonable allocation of power corresponding to different electronic devices can be realized, and the purpose of effectively protecting the device can be achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • FIG. 5 is a schematic diagram of a process for implementing a power allocation method according to an embodiment of the present invention, and is applied to a terminal.
  • the power allocation method in the embodiment of the present invention includes:
  • Step S501 Receive a power allocation request of the target device.
  • Step S502 Acquire a current temperature value of the target device.
  • Step S503 detecting whether the current temperature value of the target device is within an over temperature control range
  • Step S504 When the current temperature value of the target device is within the over temperature control range, detecting whether devices other than the target device of the N devices are all in a closed state;
  • the state machine continues to detect whether all of the N devices except the target device are in a closed state when determining that the current temperature value of the target device is within the over temperature control range Determining that the target device satisfies a power allocation strategy when all of the N devices except the target device are in a closed state; otherwise, it is necessary to continue Whether the target device satisfies the power allocation strategy is determined according to a hardware layout factor.
  • the N devices may be determined in addition to the target device in a manner of operation of the end user. All other devices are off. If the end user operation of "set to flight mode" is detected, it can be determined that the Wi-Fi device or the MODEM radio device in the terminal is in the off state.
  • Step S505 Perform power allocation operation on the target device when the devices other than the target device are in the off state among the N devices.
  • the data service when the user finds that the terminal is hot when downloading a large amount of data for a long time, the data service will be turned off for the terminal or set to the flight mode. It is well known to those skilled in the art that in the flight mode, the terminal stops the network signal. Transmission, the terminal no longer interacts with the outside world, but other functions of the terminal itself can still be used.
  • the power allocation method of the embodiment of the present invention since the terminal enters the flight mode, the state opportunity allocates power consumption to a suitable device at this time, for example, the user opens the game for entertainment at this time, and the APP processor is required to perform high performance and Efficient processing to get the best gaming experience, the state machine will allocate power to the APP processor.
  • the temperature sensor acquires the temperature value on a particular device. If the data service has been over-temperatureed before, the APP processor is down-converted according to the conventional power allocation strategy. At this point, the user opens the game for entertainment, and the down-converted processor affects the user's gaming experience.
  • the state opportunity considers the fact that the terminal has entered the flight mode before, and the Wi-Fi device or the MODEM RF device has stopped working even if the two devices have been over temperatureed before.
  • the state machine will still rely on the power consumption, as well as the user's operation, historical temperature data, will think that these two devices will not cause the temperature to continue to generate, that is to say, the temperature will continue to decline, so the APP processor will be restored to The normal working state meets the performance experience of other aspects of the user.
  • the state machine in the terminal further detects, among the N devices, the target device when determining that the current temperature value of the target device is within the over temperature control range. Whether other devices are in the off state; when the devices other than the target device are in the off state, the power allocation operation to the target device is performed. In this way, a reasonable allocation of power corresponding to different electronic devices can be realized, and the purpose of effectively protecting the device can be achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • FIG. 6 is a schematic diagram of a process for implementing a power allocation method according to an embodiment of the present invention, and is applied to a terminal.
  • the power allocation method in the embodiment of the present invention includes:
  • Step S601 Receive a power allocation request of the target device.
  • Step S602 Acquire a current temperature value of the target device.
  • Step S603 detecting whether the current temperature value of the target device is within an over temperature control range
  • Step S604 When the current temperature value of the target device is within the over temperature control range, detecting whether all devices of the N devices except the target device are in a closed state;
  • Step S605 when the devices other than the target device are not in the off state, the temperature of the adjacent device corresponding to the target device in the terminal hardware layout is detected, and the adjacent device is detected. Whether the current temperature of the device exceeds a temperature threshold;
  • the state machine appropriately adjusts the power distribution of the target and adjacent devices according to actual conditions.
  • Step S606 when the current temperature of the adjacent device does not exceed the temperature threshold, execute the opposite The power allocation operation of the target device.
  • the state machine in the terminal combines the terminal hardware layout with the target device in the N devices except that the devices other than the target device are not all in the off state. Detecting whether a current temperature of the adjacent device exceeds a temperature threshold according to a temperature condition of the corresponding adjacent device; performing a power allocation operation on the target device when a current temperature of the adjacent device does not exceed a temperature threshold. In this way, a reasonable allocation of power corresponding to different electronic devices can be realized, and the purpose of effectively protecting the device can be achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • Embodiment 5 is a diagrammatic representation of Embodiment 5:
  • FIG. 7 is a schematic flowchart of an implementation process of a power allocation method according to an embodiment of the present invention, and is applied to a terminal.
  • the power allocation method in the embodiment of the present invention includes:
  • Step S701 performing qualification detection on N devices in the terminal
  • the state machine in the terminal first performs qualification detection on the N devices in the terminal to eliminate the unqualified device, thus avoiding interference for subsequent power allocation, and improving the rationality of power allocation.
  • Step S702 When there is a defective device in the N devices, the defective device is excluded;
  • Step S703 Receive a power allocation request of the target device.
  • the target device is one of the devices after removing the unqualified device among the N devices in the terminal;
  • N is an integer greater than or equal to 2;
  • the target device refers to a device in which a load changes in the terminal.
  • Step S704 detecting whether the target device meets a power allocation policy, and obtaining a detection result
  • Step S705 The detection result is that when the target device meets the power allocation policy, performing a power allocation operation on the target device.
  • the terminal receives the power component of the target device.
  • the N devices in the terminal are tested for eligibility; when there are defective devices in the N devices, the unqualified devices are directly excluded.
  • the interference of the unqualified device is avoided, and the corresponding power of different electronic devices can be allocated reasonably, and the purpose of effectively protecting the device is achieved while maintaining the high performance of the terminal, thereby improving the user experience.
  • the terminal includes N devices 801 and a state machine 802.
  • the N devices 801 include a target device 801, where N is greater than or equal to 2. Integer
  • the target device 801 is configured to send a power allocation request to the state machine
  • the state machine 802 is configured to receive a power allocation request of the target device, detect whether the target device satisfies a power allocation policy, and obtain a detection result; and when the detection result is that the target device meets a power allocation policy, perform the Power allocation operation of the target device.
  • the terminal further includes a temperature sensor 803;
  • the state machine 802 is further configured to acquire a current temperature value of the target device from the temperature sensor 803;
  • the state machine 802 is further configured to: detect whether a current temperature value of the target device is within an over temperature control range; and when the current temperature value of the target device is not within an over temperature control range, determine the The target device satisfies the power allocation strategy.
  • the state machine 802 is further configured to detect, among the N devices, other devices than the target device when a current temperature value of the target device is within an over temperature control range Whether they are all in a closed state; when all of the N devices except the target device are in a closed state, it is determined that the target device satisfies a power allocation strategy.
  • the state machine 802 is further configured to, when the devices other than the target device are not in the off state, correspond to the target device in the terminal hardware layout. Temperature condition of adjacent devices, detecting the current temperature of the adjacent device Whether the temperature threshold is exceeded; when the current temperature of the neighboring device does not exceed the temperature threshold, it is determined that the target device satisfies the power allocation strategy.
  • the state machine 802 is further configured to perform qualification detection on N devices in the terminal; when there are defective devices in the N devices, the failed device is excluded.
  • the embodiment provides a storage medium including executable instructions for performing the power allocation method shown in any of FIGS. 1, 3, 5, and 6.
  • the foregoing program may be stored in a computer readable storage medium, and when executed, the program includes The foregoing steps of the method embodiment; and the foregoing storage medium includes: a removable storage device, a read-only memory (ROM), a magnetic disk or an optical disk, and the like, which can store program codes.
  • ROM read-only memory
  • the above-described integrated module of the embodiment of the present invention may be stored in a computer readable storage medium if it is implemented in the form of a software function module and sold or used as a stand-alone product.
  • the technical solution of the embodiments of the present invention may be embodied in the form of a software product in essence or in the form of a software product stored in a storage medium, including a plurality of instructions.
  • a computer device (which may be a personal computer, server, or network device, etc.) is caused to perform all or part of the methods described in various embodiments of the present invention.
  • the foregoing storage medium includes various media that can store program codes, such as a mobile storage device, a ROM, a magnetic disk, or an optical disk.

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Abstract

提供一种功率分配方法及终端、存储介质;方法包括:接收目标器件的功率分配请求;检测目标器件是否满足功率分配策略,得到检测结果;检测结果为目标器件满足功率分配策略时,执行对目标器件的功率分配操作。

Description

一种功率分配方法及终端、存储介质 技术领域
本发明涉及移动通信领域,尤其涉及一种功率分配方法及终端、存储介质。
背景技术
相关技术中,移动终端为了满足便携性的要求,其主板电路布局比较紧密,本身并没有风扇等散热冷却终端,主要依靠主板上各处覆铜来散热,即移动终端的主板会全面积散热,各处的温度是相同的。移动终端的上述传统的散热方案,能够在达到设备的极限温度时,移动终端内的操作系统会将设备进行关机,有效避免可能产生的硬件故障,对电子器件进行保护。
然而,由于移动终端上会分布各种电子器件,如功率比较大的电子器件比如调制解调器(MODEM)射频器件,无线仿真(Wi-Fi)器件,应用程序(APP)处理器等。在不同的使用场景下,各种大功率器件的发热往往是不同的。比如,当Wi-Fi长时间使用的使用,Wi-Fi器件的发热比较明显,主板其他位置的温度并没有Wi-Fi器件热度高;或者,当使用移动网络进行大数据下载的时候,MODEM射频器件的发热很大,同样的,此时比如Wi-Fi器件的温度可能是正常的。所以,传统的散热方案在某些场合下会对用户造成使用的不方便,导致用户体验变差。
发明内容
有鉴于此,本发明实施例提供一种功率分配方法及终端、存储介质,能够实现不同器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的。
为达到上述目的,本发明实施例的技术方案是这样实现的:
本发明实施例提供一种功率分配方法,应用于终端,所述方法包括:
接收目标器件的功率分配请求,所述目标器件为所述终端中N个器件之一;N为大于等于2的整数;
检测所述目标器件是否满足功率分配策略,得到检测结果;
所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
上述方案中,接收目标器件的功率分配请求之后,所述方法还包括:获取所述目标器件的当前温度值;
相应的,所述检测所述目标器件是否满足功率分配策略,得到检测结果,包括:
检测所述目标器件的当前温度值是否处在过温控制范围之内;
当所述目标器件的当前温度值不在过温控制范围之内时,确定所述目标器件满足功率分配策略。
上述方案中,当所述目标器件的当前温度值在过温控制范围之内时,所述检测所述目标器件是否满足功率分配策略,得到检测结果,还包括:
检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;
当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略。
上述方案中,当所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,所述检测所述目标器件是否满足功率分配策略,得到检测结果,还包括:
结合终端硬件布局上与所述目标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度是否超过温度阈值;
当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略。
上述方案中,所述方法还包括:
对所述终端中的N个器件进行合格性检测;
当所述N个器件中存在不合格器件时,排除所述不合格器件。
本发明实施例还提供一种终端,所述终端包括N个器件和状态机,所述N个器件中包括目标器件,N为大于等于2的整数;
所述目标器件,配置为向状态机发送功率分配请求;
所述状态机,配置为接收目标器件的功率分配请求;检测所述目标器件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
上述方案中,所述终端还包括温度传感器;
所述状态机,还配置为从所述温度传感器获取所述目标器件的当前温度值;
相应的,所述状态机检测所述目标器件是否满足功率分配策略,得到检测结果,包括:
检测所述目标器件的当前温度值是否处在过温控制范围之内;
当所述目标器件的当前温度值不在过温控制范围之内时,确定所述目标器件满足功率分配策略。
上述方案中,所述状态机,还配置为当所述目标器件的当前温度值在过温控制范围之内时,检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略。
上述方案中,所述状态机,还配置为当所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,结合终端硬件布局上与所述目 标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度是否超过温度阈值;当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略。
上述方案中,所述状态机,还配置为对所述终端中的N个器件进行合格性检测;当所述N个器件中存在不合格器件时,排除所述不合格器件。
本发明实施例还提供一种存储介质,所述存储介质中包括有可执行指令,所述可执行指令用于本本发明实施例提供的功率分配方法。
本发明实施例所提供的功率分配方法及终端、存储介质,接收目标器件的功率分配请求;检测所述目标器件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。基于功率分配策略能够实现不同器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
附图说明
图1为本发明实施例功率分配方法的实现流程示意图一;
图2为本发明实施例终端内不同器件的分布示意图一;
图3为本发明实施例功率分配方法的实现流程示意图二;
图4为本发明实施例终端内不同器件的分布示意图二;
图5为本发明实施例功率分配方法的实现流程示意图三;
图6为本发明实施例功率分配方法的实现流程示意图四;
图7为本发明实施例功率分配方法的实现流程示意图五;
图8为本发明实施例终端的组成结构示意图。
具体实施方式
在本发明实施例中,接收目标器件的功率分配请求;检测所述目标器 件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
下面结合附图及具体实施例对本发明再作进一步详细的说明。
实施例一:
图1为本发明实施例功率分配方法的实现流程示意图一,应用于终端,如图1所示,本发明实施例功率分配方法包括:
步骤S101:接收目标器件的功率分配请求;
其中,所述目标器件为所述终端中N个器件之一;N为大于等于2的整数;
示例性地,当终端中目标器件的负载有变化时,所述目标器件会发起功率分配请求至终端中的状态机。
这里,所述器件可以为终端中预先设置好的所有可能涉及功率分配问题的功能器件。如图2所示为终端内不同器件的分布示意图一,其中,所述器件可以包括MODEM射频器件、APP处理器、Wi-Fi器件及充电电路元件等。需要说明的是,在实际应用中,所述终端内不同器件的分布可能会不同于图2所示。
所述目标器件是指终端中负载发生变化的器件。
所述终端包括移动终端以及非移动终端,非移动终端包括台式计算机,移动终端包括智能手机(Smart Phone)、平板电脑、笔记本电脑、个人数字助理等。
步骤S102:检测所述目标器件是否满足功率分配策略,得到检测结果;
示例性地,终端中的状态机接收到目标器件的功率分配请求后,检测所述目标器件是否满足功率分配策略,得到检测结果。
这里,所述功率分配策略是由终端预先设置的,所述功率分配策略涉及是否需要过温控制、相关的终端用户操作、硬件布局等诸多因素。示例 性地,所述功率分配策略包括所述目标器件的当前温度值不在过温控制范围之内、所述N个器件中除所述目标器件之外的其他器件均处于关闭状态、终端硬件布局上与所述目标器件对应的相邻器件的温度未超过温度阈值等。在实际应用中,所述终端中的状态机可以根据是否需要过温控制因素来判断所述目标器件的当前温度值是否在过温控制范围之内,也可以根据相关的终端用户操作来判断所述N个器件中除所述目标器件之外的其他器件是否处于关闭状态,还可以根据硬件布局因素来判断终端硬件布局上与所述目标器件对应的相邻器件的温度是否超过温度阈值,以检测所述目标器件是否满足功率分配策略。
步骤S103:所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
示例性地,当终端中状态机的检测结果为所述目标器件满足功率分配策略时,响应目标器件的功率分配请求,执行对所述目标器件的功率分配操作。
通过本发明实施例所述功率分配方法,接收目标器件的功率分配请求;检测所述目标器件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。如此,能够实现不同电子器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
实施例二:
图3为本发明实施例功率分配方法的实现流程示意图二,应用于终端,如图3所示,本发明实施例功率分配方法包括:
步骤S301:接收目标器件的功率分配请求;
其中,所述目标器件为所述终端中N个器件之一;N为大于等于2的整数;
示例性地,当终端中目标器件的负载有变化时,所述目标器件会发起功率分配请求至终端中的状态机。
这里,所述器件可以为终端中预先设置好的所有可能涉及功率分配问题的功能器件。如图4所示为终端内不同器件的分布示意图二,其中,所述器件可以包括调制解调器(MODEM)射频器件、应用(APP)处理器、Wi-Fi器件及充电电路元件等。需要说明的是,在实际应用中,所述终端内不同器件的分布可能会不同于图4所示。可选地,如图4所示,对应终端内不同器件分别设置有温度传感器;其中,温度传感器1会采集充电电路上产生的功耗热量,温度传感器2会采集MODEM射频器件上产生的功耗热量,温度传感器3会采集APP处理器上产生的功耗热量,温度传感器4会采集Wi-Fi器件上的功耗热量。
需要说明的是,所述温度传感器1~4可能是外部传感器或者内部传感器,也可能是不同类型的温度传感器。所述温度传感器1~4的目的都是为了采集对应器件上的温度值。
这里,所述目标器件是指终端中负载发生变化的器件。
步骤S302:获取所述目标器件的当前温度值;
示例性地,终端中的状态机从目标器件对应的温度传感器获取到所述目标器件的当前温度值。
步骤S303:检测所述目标器件的当前温度值是否处在过温控制范围之内;
这里,需要说明的是,为了实现本发明实施例对不同器件对应功率的合理分配,需要预先根据各器件的历史过温情况,通过大数据来统计出每个目标器件的过温控制范围。
示例性地,所述状态机检测所述目标器件的当前温度值是否处在过温控制范围之内;当所述目标器件的当前温度值不在过温控制范围之内时, 确定所述目标器件满足功率分配策略;否则,需要进一步根据相关的终端用户操作来判断所述目标器件是否满足功率分配策略。
步骤S304:当所述目标器件的当前温度值不在过温控制范围之内时,执行对所述目标器件的功率分配操作。
通过本发明实施例所述功率分配方法,接收目标器件的功率分配请求;获取所述目标器件的当前温度值;根据检测所述当前温度值是否在过温控制范围之内来确定所述目标器件是否满足功率分配策略;当所述目标器件的当前温度值不在过温控制范围之内时,执行对所述目标器件的功率分配操作。如此,能够实现不同电子器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
实施例三
图5为本发明实施例功率分配方法的实现流程示意图三,应用于终端,如图5所示,本发明实施例功率分配方法包括:
步骤S501:接收目标器件的功率分配请求;
步骤S502:获取所述目标器件的当前温度值;
步骤S503:检测所述目标器件的当前温度值是否处在过温控制范围之内;
需要说明的是,本发明实施例三步骤S501~S503的具体实现过程与本发明实施例二步骤S301~S303相类似,这里不再赘述。
步骤S504:当所述目标器件的当前温度值在过温控制范围之内时,检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;
示例性地,所述状态机在确定所述目标器件的当前温度值在过温控制范围之内时,继续检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略;否则,需要继续 根据硬件布局因素来判断所述目标器件是否满足功率分配策略。
这里,在检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态的过程中,可以结合终端用户操作的方式来确定所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态。如当检测到“设置为飞行模式”的终端用户操作时,则可以确定终端中的Wi-Fi器件或者MODEM射频器件处于关闭状态。
步骤S505:所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,执行对所述目标器件的功率分配操作。
在一示例中,当用户发现长时间大数据量下载的时候终端发热,此时将对终端关闭数据业务,或者置为飞行模式,本领域技术人员众所周知,在飞行模式下,终端会停止网络信号传输,终端不再与外界进行数据交互,但是终端本身的其他功能用户仍然可以使用。通过本发明实施例所述功率分配方法,由于终端进入了飞行模式,此时状态机会将功耗分配到合适的器件上,比如用户此时打开了游戏进行娱乐,需要APP处理器进行高性能和高效率的处理来获取最佳的游戏体验,状态机就会将功耗分配到APP处理器上。
在另一示例中,温度传感器会获取某一特定器件上的温度值,如果之前在进行数据业务的时候,已经过温,按照传统的功率分配策略,会对APP处理器进行降频处理,如果此时用户打开游戏进行娱乐,降频后的处理器会影响用户的游戏体验。然而,通过本发明实施例所述功率分配方法,状态机会考虑终端之前已经进入到飞行模式这一事实,此时Wi-Fi器件或者MODEM射频器件已经停止工作,即使之前这两个器件已经过温,状态机仍然会根据功耗情况,以及用户操作,历史温度数据,会认为这两个器件不会再引起温度的继续产生,也就是说推断温度会继续下降,因此会将APP处理器恢复到正常的工作状态,满足用户其他方面的性能体验。
通过本发明实施例所述功率分配方法,终端中的状态机在确定所述目标器件的当前温度值在过温控制范围之内时,会进一步检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,执行对所述目标器件的功率分配操作。如此,能够实现不同电子器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
实施例四
图6为本发明实施例功率分配方法的实现流程示意图四,应用于终端,如图6所示,本发明实施例功率分配方法包括:
步骤S601:接收目标器件的功率分配请求;
步骤S602:获取所述目标器件的当前温度值;
步骤S603:检测所述目标器件的当前温度值是否处在过温控制范围之内;
步骤S604:当所述目标器件的当前温度值在过温控制范围之内时,检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;
需要说明的是,本发明实施例四步骤S601~S604的具体实现过程与本发明实施例三步骤S501~S504相类似,这里不再赘述。
步骤S605:所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,结合终端硬件布局上与所述目标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度是否超过温度阈值;
这里,当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略,继续执行步骤S606;否则,执行对所述目标器件和相邻器件的功率调整操作,即状态机根据实际情况适当地调整所述目标器和相邻器件的功率分配情况。
步骤S606:当所述相邻器件的当前温度未超过温度阈值时,执行对所 述目标器件的功率分配操作。
通过本发明实施例所述功率分配方法,终端中的状态机在所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,结合终端硬件布局上与所述目标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度是否超过温度阈值;当所述相邻器件的当前温度未超过温度阈值时,执行对所述目标器件的功率分配操作。如此,能够实现不同电子器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
实施例五:
图7为本发明实施例功率分配方法的实现流程示意图五,应用于终端,如图7所示,本发明实施例功率分配方法包括:
步骤S701:对终端中的N个器件进行合格性检测;
示例性地,终端中的状态机首先对终端中的N个器件进行合格性检测,以排除不合格器件,这样为后续功率分配避免了干扰,能够提高功率分配的合理性。
步骤S702:当所述N个器件中存在不合格器件时,排除所述不合格器件;
步骤S703:接收目标器件的功率分配请求;
其中,所述目标器件为所述终端中N个器件中去除不合格器件后的器件之一;N为大于等于2的整数;
这里,所述目标器件是指终端中负载发生变化的器件。
步骤S704:检测所述目标器件是否满足功率分配策略,得到检测结果;
步骤S705:所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
通过本发明实施例所述功率分配方法,终端在接收目标器件的功率分 配请求之前,先对终端中的N个器件进行合格性检测;当所述N个器件中存在不合格器件时,直接排除所述不合格器件。如此,在功率分配过程中,避免了不合格器件的干扰,能够实现不同电子器件对应功率的合理分配,在保持终端高性能的同时,达到有效保护器件的目的,提升用户体验。
实施例六
图8为本发明实施例终端的组成结构示意图,如图8所示,所述终端包括N个器件801和状态机802,所述N个器件801中包括目标器件801,N为大于等于2的整数;
所述目标器件801,配置为向状态机发送功率分配请求;
所述状态机802,配置为接收目标器件的功率分配请求;检测所述目标器件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
在一实施例中,如图8所示,所述终端还包括温度传感器803;
所述状态机802,还配置为从所述温度传感器803获取所述目标器件的当前温度值;
所述状态机802,还配置为:检测所述目标器件的当前温度值是否处在过温控制范围之内;当所述目标器件的当前温度值不在过温控制范围之内时,确定所述目标器件满足功率分配策略。
在一实施例中,所述状态机802,还配置为当所述目标器件的当前温度值在过温控制范围之内时,检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略。
在一实施例中,所述状态机802,还配置为当所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,结合终端硬件布局上与所述目标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度 是否超过温度阈值;当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略。
在一实施例中,所述状态机802,还配置为对所述终端中的N个器件进行合格性检测;当所述N个器件中存在不合格器件时,排除所述不合格器件。
实施例七:
本实施例提供一种存储介质,所述存储介质中包括有可执行指令,所述可执行指令用于执行图1、图3、图5和图6任一附图所示的功率分配方法。
本领域普通技术人员可以理解:实现上述方法实施例的全部或部分步骤可以通过程序指令相关的硬件来完成,前述的程序可以存储于计算机可读取存储介质中,该程序在执行时,执行包括上述方法实施例的步骤;而前述的存储介质包括:移动存储设备、只读存储器(ROM,Read-Only Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
或者,本发明实施例上述集成的模块如果以软件功能模块的形式实现并作为独立的产品销售或使用时,也可以存储在一个计算机可读取存储介质中。基于这样的理解,本发明实施例的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机、服务器、或者网络设备等)执行本发明各个实施例所述方法的全部或部分。而前述的存储介质包括:移动存储设备、ROM、磁碟或者光盘等各种可以存储程序代码的介质。
本发明实施例中记载的通话方法、装置只以上述实施例为例,但不仅限于此,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分或者全部技术特征进行等同替 换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。
以上所述仅为本发明的较佳实施例而已,并非配置为限定本发明的保护范围。

Claims (11)

  1. 一种功率分配方法,所述方法包括:
    接收目标器件的功率分配请求,所述目标器件为终端中N个器件之一;N为大于等于2的整数;
    检测所述目标器件是否满足功率分配策略,得到检测结果;
    所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
  2. 根据权利要求1所述的方法,其中,接收目标器件的功率分配请求之后,所述方法还包括:获取所述目标器件的当前温度值;
    相应的,所述检测所述目标器件是否满足功率分配策略,得到检测结果,包括:
    检测所述目标器件的当前温度值;
    当所述目标器件的当前温度值不在过温控制范围之内时,确定所述目标器件满足功率分配策略。
  3. 根据权利要求2所述的方法,其中,当所述目标器件的当前温度值在过温控制范围之内时,所述检测所述目标器件是否满足功率分配策略,得到检测结果,还包括:
    检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;
    当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略。
  4. 根据权利要求3所述的方法,其中,当所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,所述检测所述目标器件是否满足功率分配策略,得到检测结果,还包括:
    结合所述终端的硬件布局上与所述目标器件对应的相邻器件的温度情 况,检测所述相邻器件的当前温度是否超过温度阈值;
    当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略。
  5. 根据权利要求1至4任一项所述的方法,其中,所述方法还包括:
    对所述终端中的N个器件进行合格性检测;
    当所述N个器件中存在不合格器件时,排除所述不合格器件。
  6. 一种终端,所述终端包括N个器件和状态机,所述N个器件中包括目标器件,N为大于等于2的整数;
    所述目标器件,配置为向状态机发送功率分配请求;
    所述状态机,配置为接收目标器件的功率分配请求;检测所述目标器件是否满足功率分配策略,得到检测结果;所述检测结果为所述目标器件满足功率分配策略时,执行对所述目标器件的功率分配操作。
  7. 根据权利要求6所述的终端,其中,所述终端还包括温度传感器;
    所述状态机,还配置为从所述温度传感器获取所述目标器件的当前温度值;
    所述状态机,还配置为检测所述目标器件的当前温度值是否处在过温控制范围之内;
    当所述目标器件的当前温度值不在过温控制范围之内时,确定所述目标器件满足功率分配策略。
  8. 根据权利要求7所述的终端,其中,
    所述状态机,还配置为当所述目标器件的当前温度值在过温控制范围之内时,检测所述N个器件中除所述目标器件之外的其他器件是否均处于关闭状态;当所述N个器件中除所述目标器件之外的其他器件均处于关闭状态时,确定所述目标器件满足功率分配策略。
  9. 根据权利要求8所述的终端,其中,
    所述状态机,还配置为当所述N个器件中除所述目标器件之外的其他器件并非均处于关闭状态时,结合所述终端的硬件布局上与所述目标器件对应的相邻器件的温度情况,检测所述相邻器件的当前温度是否超过温度阈值;当所述相邻器件的当前温度未超过温度阈值时,确定所述目标器件满足功率分配策略。
  10. 根据权利要求6至9任一项所述的终端,其中,
    所述状态机,还配置为对所述终端中的N个器件进行合格性检测;当所述N个器件中存在不合格器件时,排除所述不合格器件。
  11. 一种存储介质,所述存储介质中包括有可执行指令,所述可执行指令用于执行权利要求1至5任一项所述的功率分配方法。
PCT/CN2016/091645 2015-07-24 2016-07-25 一种功率分配方法及终端、存储介质 WO2017016465A1 (zh)

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