A processing method and electronic device

By setting up signal detection devices at multiple detection positions on electronic devices, the positions are detected and adjusted to ensure that the charging coil is aligned, thus solving the problem of low wireless charging efficiency and achieving fast and efficient charging.

CN122247044APending Publication Date: 2026-06-19LENOVO (BEIJING) LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
LENOVO (BEIJING) LTD
Filing Date
2026-02-28
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

How to improve charging efficiency during wireless charging, especially by ensuring the alignment of the charging coil to achieve fast and efficient charging.

Method used

Signal detection devices are set at multiple detection locations of the electronic device to detect charging signals and generate signal detection information. Based on this information, the alignment between the device and the charging device is determined, and the device position is adjusted through information prompts to meet the charging conditions.

Benefits of technology

It effectively improves the efficiency of wireless charging, enabling fast and efficient charging of electronic devices.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a processing method and an electronic device, relating to the field of terminal charging technology. The processing method includes: detecting charging signals at multiple detection locations on the electronic device to obtain signal detection information corresponding to each detection location; the charging signal is a signal related to a charging device used for wireless charging; in response to the signal detection information corresponding to at least one detection location satisfying a target condition, and with wireless charging already activated, determining whether the electronic device meets the charging conditions; in response to the charging conditions not being met, providing an information prompt based on the signal detection information corresponding to each detection location; the information prompt is used to instruct adjustment of the relative position of the electronic device and the charging device to make the electronic device meet the charging conditions.
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Description

Technical Field

[0001] This application relates to the field of terminal charging technology, and in particular to a processing method and an electronic device. Background Technology

[0002] Wireless charging technology has been widely used in mobile devices due to its convenience and aesthetic appeal.

[0003] In practical applications, the efficiency of wireless charging is closely related to whether the coils on the charging side and the side being charged are aligned. Misalignment will affect the charging efficiency. Therefore, how to ensure that the two are aligned or at least improve the alignment rate in order to improve the efficiency of wireless charging and achieve fast and efficient wireless charging of mobile terminals has become a technical problem that urgently needs to be solved in this field. Summary of the Invention

[0004] Therefore, this application discloses the following technical solution:

[0005] A processing method includes:

[0006] Charging signals are detected at multiple detection locations on the electronic device to obtain signal detection information corresponding to each detection location; the charging signals are related to the charging device used for wireless charging.

[0007] In response to the signal detection information corresponding to at least one detection location satisfying the target condition, and with wireless charging already activated, it is determined whether the electronic device meets the charging conditions.

[0008] In response to the failure to meet the charging conditions, information prompting is performed based on the signal detection information corresponding to each detection position; the information prompting is used to instruct the electronic device to adjust the relative position of the electronic device and the charging device so that the electronic device meets the charging conditions.

[0009] Optionally, the charging signal is detected at multiple detection locations on the electronic device to obtain signal detection information corresponding to each detection location, including at least one of the following:

[0010] Synchronization signals are detected at the multiple detection locations to obtain synchronization signal detection information corresponding to each detection location; the synchronization signal is a signal initiated by the charging device for energy coupling with the device to be charged to transmit power.

[0011] Distance signals are detected at the multiple detection locations to obtain distance signal detection information corresponding to each detection location; the distance signal represents the distance between the electronic device and the charging device.

[0012] The reflected signals are detected at the multiple detection locations to obtain the reflected signal detection information corresponding to each detection location; the reflected signals represent the reflected signals of the charging device to the signals initiated at the multiple detection locations.

[0013] Optionally, the signal detection information corresponding to at least one detection location satisfies the target condition, including at least one of the following:

[0014] The signal detection information corresponding to at least one detection location satisfies the target signal condition;

[0015] At least one detection location corresponds to a distance information that satisfies the target distance condition;

[0016] The distance information corresponding to each detection position is used to characterize the distance between the detection position and the charging device; the distance information corresponding to each detection position is generated by processing the signal detection information corresponding to the detection position; the target signal condition and the target distance condition are respectively conditions that can be used to characterize the proximity between the corresponding detection position and the charging device.

[0017] Optionally, determining whether the electronic device meets the charging conditions includes:

[0018] Determine whether the current wireless charging power of the electronic device has reached the power threshold.

[0019] If so, the electronic device meets the charging conditions;

[0020] If not, the electronic device does not meet the charging requirements.

[0021] Optionally, information prompts can be generated based on the signal detection information corresponding to each detection location, including:

[0022] Based on the signal detection information corresponding to each detection position, the movement information for moving the electronic device is determined;

[0023] Generate and output a prompt message containing the movement information.

[0024] Optionally, based on the signal detection information corresponding to each detection position, movement information for moving the electronic device is determined, including:

[0025] Based on the signal detection information corresponding to each detection location, the distance between each detection location and the charging device is determined;

[0026] Based on the distance between each detection position and the charging device, at least one of the moving direction and moving distance for moving the electronic device is determined.

[0027] Optionally, the processing method further includes at least one of the following:

[0028] In response to the signal detection information corresponding to at least one detection location satisfying the target condition, a charging confirmation prompt is issued if wireless charging is not activated; in response to receiving the charging confirmation information, wireless charging is activated.

[0029] In response to the electronic device meeting the charging conditions, the electronic device is wirelessly charged using the charging device.

[0030] An electronic device, comprising:

[0031] Multiple signal detection devices are respectively set at different detection positions of the electronic device. Each signal detection device is used to detect the charging signal to obtain the signal detection information corresponding to each detection position. The charging signal is related to the charging device used for wireless charging.

[0032] Processor, used for:

[0033] In response to the signal detection information corresponding to at least one detection location satisfying the target condition, and with wireless charging already activated, it is determined whether the electronic device meets the charging conditions.

[0034] In response to the failure to meet the charging conditions, information prompting is performed based on the signal detection information corresponding to each detection position; the information prompting is used to instruct the electronic device to adjust the relative position of the electronic device and the charging device so that the electronic device meets the charging conditions.

[0035] Optionally, the different signal detection positions are respectively set in different target neighborhood areas near the wireless charging component of the electronic device, and each target neighborhood area satisfies the adjacent condition with the wireless charging component.

[0036] Optionally, when the processor performs information prompting processing based on the signal detection information corresponding to each detection location, it is used to:

[0037] Based on the signal detection information corresponding to each detection position, the movement information for moving the electronic device is determined;

[0038] Generate and output a prompt message containing the movement information. Attached Figure Description

[0039] To more clearly illustrate the technical solutions in the embodiments of this application or related technologies, the drawings used in the description of the embodiments or related technologies will be briefly introduced below. Obviously, the drawings described below are only embodiments of this application. For those skilled in the art, other drawings can be obtained based on the provided drawings without creative effort.

[0040] Figure 1 This is a flowchart illustrating one of the processing methods provided in this application;

[0041] Figure 2 This is an example of arranging multiple detection positions on an electronic device as provided in this application;

[0042] Figure 3 This application provides an example of indicating various possible directions of movement of the terminal based on a graphical representation.

[0043] Figure 4 This is another flowchart illustrating the processing method provided in this application;

[0044] Figure 5 This is a schematic diagram of signal sensing and detection provided in this application;

[0045] Figure 6 This is an exemplary implementation flowchart of wireless charging alignment and control provided in this application;

[0046] Figure 7 This is a structural diagram of the electronic device provided in this application. Detailed Implementation

[0047] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.

[0048] This application provides a processing method and an electronic device adapted to wireless charging scenarios to improve the wireless charging efficiency of electronic devices. The provided method can be applied to electronic devices in various general-purpose or dedicated computing environments or configurations, such as smart terminals, handheld or portable devices, tablet devices, multiprocessor devices, etc.

[0049] See Figure 1 The flowchart shown illustrates the processing method provided in this application embodiment, which may include the following steps 101 to 103, which are described in detail below.

[0050] Step 101: Detect the charging signal at multiple detection locations of the electronic device to obtain the signal detection information corresponding to each detection location; the charging signal is a signal related to the charging device used for wireless charging.

[0051] In this embodiment of the application, multiple detection positions for detecting charging signals are provided on the electronic device, and a signal detection device can be deployed at each detection position for detecting charging signals.

[0052] The charging signal is associated with a charging device for wireless charging. The charging signal can characterize or be used to determine the distance between the corresponding detection position of the electronic device and the charging device, so as to determine the alignment between the electronic device and the charging base of the charging device.

[0053] Optionally, different signal detection locations are set in different target neighborhood areas near the wireless charging component of the electronic device, and each target neighborhood area satisfies the adjacent condition with the wireless charging component of the electronic device.

[0054] The aforementioned wireless charging components can be, but are not limited to, wireless charging coils for electronic devices.

[0055] The adjacent condition can be set, but is not limited to, that the distance between the target neighborhood area and the location of the wireless charging component of the electronic device is less than a set distance threshold.

[0056] The signal detection devices deployed at each detection location may include, but are not limited to, one or more of ultrasonic sensors, optical sensors, infrared sensors, and antennas, depending on the type of the charging signal. If the signal detection device is an antenna, an existing antenna from an electronic device such as a mobile phone may be reused as the signal detection device.

[0057] See Figure 2 This document provides an example of setting up multiple detection positions on electronic devices such as smart terminals. In this example, four detection positions A, B, C, and D are evenly arranged around the wireless charging coil of the terminal. A corresponding signal detection device can be deployed at each detection position for detecting charging signals. The even arrangement of the four detection positions A, B, C, and D around the wireless charging coil can, but is not limited to, mean that the distance between each detection position and the center of the wireless charging coil is the same or the distance difference is less than a first threshold, and that the distance between any two detection positions is greater than a second threshold. The first and second thresholds can, but are not limited to, be set based on the spatial layout characteristics of the space where the wireless charging coil of the electronic device is located.

[0058] In this step, charging signals are detected at multiple detection locations of the electronic device to obtain signal detection information corresponding to each detection location. This can be implemented, but is not limited to, at least one of the following implementation methods:

[0059] a. Detect synchronization signals at the multiple detection locations to obtain synchronization signal detection information corresponding to each detection location; the synchronization signal is a signal initiated by the charging device for energy coupling with the device to be charged to transmit power.

[0060] In this embodiment, the charging signal is the synchronization signal.

[0061] Among them, the synchronization signal of the charging device can be detected by using relevant signal detection devices deployed at each detection position. For example, high-sensitivity electromagnetic field sensors can be added to each detection position of the electronic device, and the synchronization signal emitted by the charging device can be detected based on the added electromagnetic field sensors and other devices, such as detecting the frequency and intensity of the synchronization signal.

[0062] b. Detect distance signals at the multiple detection locations to obtain distance signal detection information corresponding to each detection location; the distance signal represents the distance between the electronic device and the charging device.

[0063] In this embodiment, the charging signal is the distance signal.

[0064] Specifically, the distance signal is a signal detected at the corresponding detection position of the electronic device when the charging device approaches the electronic device, representing the distance between the detection position and the charging device. This signal can be, but is not limited to, a capacitance signal. Specifically, capacitance signals can be detected by deploying capacitance sensors at each detection position, and the distance between the detection position and the charging device can be represented or calculated based on the capacitance value corresponding to the detected capacitance signal.

[0065] The larger the capacitance value corresponding to the capacitance signal, the smaller the distance between the corresponding detection position of the electronic device and the charging device; conversely, the smaller the capacitance value corresponding to the capacitance signal, the larger the distance between the corresponding detection position of the electronic device and the charging device.

[0066] c. Detect the reflected signals at the multiple detection positions respectively to obtain the reflected signal detection information corresponding to each detection position; the reflected signal represents the reflected signal of the charging device to the signal initiated at the multiple detection positions.

[0067] In this embodiment, the charging signal is the reflected signal.

[0068] Optionally, a signal transmitter and a signal receiver can be set at each detection position of the electronic device, and the signal receiver can be used to detect the reflected signal of the signal emitted by the signal transmitter of the electronic device by the charging device. Specifically, the intensity and / or phase of the reflected signal can be detected, but is not limited to.

[0069] The signal strength of the reflected signal is inversely correlated with the distance between the corresponding detection position of the electronic device and the charging device (e.g., inverse proportional relationship). The greater the signal strength, the smaller the distance, and vice versa. Therefore, the distance between each detection position and the charging device can be characterized or determined based on the signal strength of the reflected signal detected at each detection position of the electronic device.

[0070] Different signal phases of reflected signals result in different arrival times of the reflected signals at the electronic device (time is related to distance). Therefore, the distance between the corresponding detection position of the electronic device and the charging device can be characterized or calculated based on the signal phase of the reflected signal.

[0071] Step 102: In response to the signal detection information corresponding to at least one detection location satisfying the target condition, and with wireless charging already activated, determine whether the electronic device meets the charging conditions.

[0072] The target conditions may include target signal conditions and target distance conditions.

[0073] The target signal condition is a condition that can be used to characterize the proximity between the corresponding detection position and the charging device. Specifically, it can be, but is not limited to, setting the target signal condition to the capacitance value detected at the detection position of the electronic device (the capacitance value characterized by the capacitance signal detected when the charging device is close to the electronic device) reaching a capacitance threshold, or the intensity of the detected reflected signal / synchronization signal reaching an intensity threshold, etc.

[0074] The target distance condition is also a condition that can be used to characterize the proximity between the corresponding detection position and the charging device. Specifically, it can be, but is not limited to, being set to a distance between the detection position and the charging device that is lower than a distance threshold.

[0075] Based on the aforementioned target conditions, in one possible implementation, the signal detection information corresponding to at least one detection position satisfies the target conditions. This could mean that the signal detection information corresponding to at least one detection position satisfies the target signal conditions. For example, the capacitance value detected at at least one detection position reaches a capacitance threshold.

[0076] In another possible implementation, the signal detection information corresponding to at least one detection location satisfies the target condition, or it can mean that the distance information corresponding to at least one detection location satisfies the target distance condition.

[0077] The distance information corresponding to each detection position is used to characterize the distance between the detection position and the charging device. The distance information corresponding to each detection position is generated by processing the signal detection information corresponding to the detection position, such as by calculating the strength and / or phase of the detected capacitance value or the detected reflected signal / synchronization signal, to obtain the distance between the corresponding detection position and the charging device.

[0078] In this implementation, after detecting the signal detection information corresponding to each detection location, the distance between each detection location and the charging device can be calculated based on the signal detection information and the corresponding calculation method. For example, the distance between each detection location and the charging device can be calculated based on the capacitance value or the intensity / phase of the reflected signal detected when the charging device approaches, and the corresponding distance calculation formula, to obtain the distance information corresponding to each detection location. Based on this, it is further determined whether the distance information of each detection location meets the target distance condition.

[0079] In another possible implementation, the signal detection information corresponding to at least one detection position satisfies the target condition. Alternatively, it can mean that the signal detection information corresponding to at least one detection position satisfies the target signal condition, and the distance information corresponding to at least one detection position satisfies the target distance condition. This is not limited and can be determined according to the actual application.

[0080] If the signal detection information corresponding to at least one detection position meets the target conditions, it indicates that the distance between the charging device and at least one detection position in the electronic device is relatively close, which indicates that the electronic device has or is likely to have a charging demand. In this case, it can be determined whether the wireless charging of the charging device has been activated, and if activated, it can be further determined whether the electronic device meets the charging conditions.

[0081] The electronic device can sense the alternating magnetic field generated by the charging device, such as a wireless charger, through a receiving coil. Based on this magnetic field, a current is generated to charge the battery inside the electronic device. Optionally, the electronic device can determine whether the charging device has activated wireless charging by sensing the alternating magnetic field generated by the charging device through the receiving coil. If the electronic device can sense the alternating magnetic field generated by the charging device through the receiving coil, it is determined that the charging device has activated wireless charging; otherwise, it is not activated wireless charging.

[0082] The aforementioned charging conditions can be, but are not limited to, setting the current wireless charging power of the electronic device to reach a power threshold. Accordingly, whether the electronic device meets the charging conditions can be determined by checking whether its current wireless charging power reaches the power threshold. If the current wireless charging power reaches the power threshold, the electronic device meets the charging conditions; otherwise, it does not.

[0083] If the signal detection information at each detection location does not meet the target condition, it indicates that the distance between the charging device and the electronic device is far, and correspondingly indicates that the electronic device does not have a charging requirement, thus eliminating the need for subsequent processing.

[0084] Step 103: In response to the failure to meet the charging conditions, information prompting processing is performed based on the signal detection information corresponding to each detection position; the information prompting processing is used to instruct the adjustment of the relative position between the electronic device and the charging device so that the electronic device meets the charging conditions.

[0085] If the electronic device does not meet the charging conditions, it indicates that the electronic device is not currently aligned with the charging device, resulting in an unoptimal charging state. In this case, optionally, embodiments of this application can determine the movement information for moving the electronic device based on the signal detection information corresponding to each detection position, and generate and output prompt information containing the movement information to prompt the user to adjust the relative position of the electronic device and the charging device, thereby aligning the electronic device with the charging device and thus enabling the electronic device to meet the charging conditions, such as enabling the charging power of the electronic device to reach a power threshold.

[0086] Wireless charging utilizes the principle of electromagnetic induction and achieves wireless charging through energy transfer between the electronic device and the coils inside the charging device, such as a wireless charger. Therefore, aligning the electronic device with the charging device essentially involves aligning the coils of the electronic device with the coils of the charging device.

[0087] Optionally, the distance between each detection position and the charging device can be determined based on the signal detection information (such as capacitance, intensity / phase of reflected signal, etc.) corresponding to each detection position. Based on this, the direction and / or distance of movement of the electronic device can be determined according to the distance between each detection position and the charging device, and prompt information containing the direction and / or distance of movement can be generated and output to prompt the user to adjust the relative position of the electronic device and the charging device.

[0088] The moving distance can be expressed as the exact distance the electronic device needs to move, such as 0.5cm or 1cm, or it can be characterized by the magnitude of the movement, such as slight movement or full movement.

[0089] See Table 1 for details. Figure 2 The example shows the detection location layout and several optional prompting scenarios for prompting electronic devices such as terminals to adjust their positions.

[0090] Table 1

[0091] A B C D Provide examples no yes yes yes The terminal moved slightly to the lower right. no no yes yes Terminal moves down no no no yes The terminal moved to the upper right. yes no yes yes The terminal moved slightly to the upper right. yes no no yes The terminal moved to the right yes no no no The terminal moved to the lower right. yes yes no yes The terminal moved slightly to the upper left. yes yes no no Terminal moves upward yes yes yes no The terminal moved slightly to the upper right. yes yes yes yes The terminal is charging well.

[0092] In Table 1, the four detection positions A, B, C, and D correspond to "Yes" and "No" respectively, which are used to indicate whether each detection position is aligned with the charging device. The corresponding prompts are used to indicate the direction and magnitude of movement of the electronic device (such as a slight movement to the upper right).

[0093] In practical applications, the prompt information can be implemented using text and / or graphics, see [link / reference]. Figure 3 It provides examples of prompting various possible directions of movement for the terminal based on a graphical method.

[0094] In summary, the processing method provided in this application provides that by setting multiple detection positions on the electronic device and detecting charging signals at these multiple detection positions, and in response to the signal detection information corresponding to at least one detection position satisfying the target condition, the method determines whether the electronic device meets the charging condition when wireless charging is activated. This effectively determines the alignment between the electronic device and the charging device. If the electronic device does not meet the charging condition, indicating that the electronic device and the charging device are not aligned, the method further provides information prompts based on the signal detection information corresponding to each detection position to prompt the user to adjust the relative position of the electronic device and the charging device to achieve alignment, thereby ensuring that the wireless charging of the electronic device is in the optimal state (the electronic device meets the charging condition).

[0095] The efficiency of wireless charging is closely related to the alignment of the coils on the charging side and the side being charged. Properly aligning the coil of the charging base with the coil of the side being charged can effectively improve charging efficiency. This application embodiment, through the above-described process, can achieve alignment between the electronic device and the charging device based on a prompting process when they are not aligned. This correspondingly achieves the alignment of the coils on the charging side and the side being charged, thereby effectively improving the wireless charging efficiency of electronic devices and enabling fast and efficient wireless charging of mobile terminals and other electronic devices.

[0096] In an alternative embodiment, see Figure 4 The processing method flowchart shown in this application may further include at least one of the following steps:

[0097] Step 104: In response to the signal detection information corresponding to at least one detection location satisfying the target condition, if wireless charging is not activated, a charging confirmation prompt is made based on the signal detection information corresponding to each detection location; in response to receiving the charging confirmation information, wireless charging is activated.

[0098] As mentioned above, if the signal detection information corresponding to at least one detection location meets the target condition, it indicates that the distance between the charging device and at least one detection location in the electronic device is relatively close, which in turn indicates that the electronic device has a charging demand. In this case, if wireless charging is not activated, a prompt message can be generated and output based on the detected signal to prompt the user to confirm whether charging is needed, so as to provide a charging confirmation prompt.

[0099] Subsequently, if the user confirms charging based on the prompt message, wireless charging can be activated based on the received charging confirmation message.

[0100] Step 105: In response to the electronic device meeting the charging conditions, wirelessly charge the electronic device based on the charging device.

[0101] If the electronic device meets the charging conditions, or if the electronic device meets the charging conditions after its position is adjusted, then the electronic device can be wirelessly charged based on the charging device. For example, the principle of electromagnetic induction can be used to wirelessly charge mobile terminals such as mobile phones based on a wireless charger.

[0102] This embodiment can promptly remind the user to confirm whether charging is needed when the electronic device and the charging device are relatively close or near, such that the signal detected at at least one detection location meets the target conditions and wireless charging is not activated. It can also control the electronic device to perform wireless charging when the charging conditions are met (such as the wireless charging power reaching the power threshold), thereby ensuring that the wireless charging of the electronic device is in the optimal state and realizing fast and efficient wireless charging of mobile terminals and other electronic devices.

[0103] The following is an application example of the method of this application.

[0104] See this example. Figure 5 The electronic device, based on the signal detection devices deployed at each detection location, respectively senses and detects the capacitance signal, reflected signal, or synchronization signal mentioned above. Based on this, see... Figure 6 The wireless charging alignment and control process shown can further determine whether the signals detected by each signal detection device meet the target conditions (i.e., Figure 6 (For example, determining whether the signal level has reached a threshold, directly determining whether the signal detection information of each signal detection device meets the target signal condition, or converting the detected signal into the distance from the signal detection device of the electronic device to the charging base, and determining whether each distance information meets the target distance condition, etc.)

[0105] After that, as Figure 6 As shown, the system further determines whether wireless charging is activated. If wireless charging is not activated, a reminder is given based on the wireless signal to prompt the user to confirm whether charging is required. Wireless charging is activated upon user confirmation. If wireless charging is activated, the system further determines whether the wireless charging power has reached a threshold. If the threshold is reached, there is no need to adjust the relative position of the electronic device and the wireless charger; the electronic device can be wirelessly charged directly using the wireless charger. If the wireless charging power has not reached the threshold, a reminder is given based on the wireless signal to prompt the user to adjust the relative position of the electronic device and the wireless charger until the wireless charging power of the electronic device reaches the threshold, thus achieving fast and efficient wireless charging of the electronic device.

[0106] This application also provides an electronic device, the composition and structure of which are as follows: Figure 7 As shown, it includes at least a plurality of signal detection devices 10 and a processor 20.

[0107] Each signal detection device is installed at a different detection position of the electronic device.

[0108] Each signal detection device is used to detect the charging signal to obtain the signal detection information corresponding to each detection position; the charging signal is related to the charging device used for wireless charging.

[0109] Optionally, different signal detection locations are respectively set in different target neighborhood areas near the wireless charging component of the electronic device, and each target neighborhood area satisfies the adjacent condition with the wireless charging component.

[0110] The processor is used to implement the processing method provided in any of the above method embodiments.

[0111] The processor can be a central processing unit (CPU), a graphics processing unit (GPU), an application-specific integrated circuit (ASIC), a digital signal processor (DSP), an application-specific integrated circuit (ASIC), a field-programmable gate array (FPGA), a neural network processor (NPU), a deep learning processor (DLP), or other programmable logic devices.

[0112] Optionally, the electronic device may also include a display device for displaying information.

[0113] Optionally, electronic devices may also include storage resources such as memory and cache.

[0114] Optionally, the electronic device may also include an image acquisition device.

[0115] In addition to these components, electronic devices may also include communication interfaces, communication buses, and other parts. Memory, processor, and communication interface communicate with each other through the communication bus.

[0116] Communication interfaces are used for communication between electronic devices and other devices. Communication buses can be Peripheral Component Interconnect (PCI) buses or Extended Industry Standard Architecture (EISA) buses, and can be categorized into address buses, data buses, control buses, etc.

[0117] This application also discloses a storage medium carrying one or more computer instruction sets, which, when executed by an electronic device, enable the electronic device to implement the processing method provided in any of the above method embodiments.

[0118] It should be noted that the various embodiments in this specification are described in a progressive manner, with each embodiment focusing on the differences from other embodiments. The same or similar parts between the various embodiments can be referred to each other.

[0119] For ease of description, the above systems or devices are described separately as various modules or units based on their functions. Of course, in implementing this application, the functions of each unit can be implemented in one or more software and / or hardware components.

[0120] As can be seen from the above description of the embodiments, those skilled in the art can clearly understand that this application can be implemented by means of software plus necessary general-purpose hardware platforms. Based on this understanding, the technical solution of this application, in essence or the part that makes a creative contribution, can be embodied in the form of a software product. This computer software product can be stored in a storage medium, such as ROM / RAM, magnetic disk, optical disk, etc., and includes several instructions to cause a computer device (which may be a personal computer, server, or network device, etc.) to execute the methods described in various embodiments or some parts of the embodiments of this application.

[0121] Finally, it should be noted that in this document, relational terms such as first, second, third, and fourth are used to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0122] The above description is only a preferred embodiment of this application. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this application, and these improvements and modifications should also be considered within the scope of protection of this application.

Claims

1. A processing method, comprising: The charging signal is detected at multiple detection locations of the electronic device to obtain the signal detection information corresponding to each detection location. The charging signal is associated with a charging device used for wireless charging; In response to the signal detection information corresponding to at least one detection location satisfying the target condition, and with wireless charging already activated, it is determined whether the electronic device meets the charging conditions. In response to the failure to meet charging conditions, information prompts are generated based on the signal detection information corresponding to each detection location. The information prompting process is used to instruct the adjustment of the relative position of the electronic device and the charging device so that the electronic device meets the charging conditions.

2. The processing method according to claim 1, wherein charging signals are detected at multiple detection locations of the electronic device to obtain signal detection information corresponding to each detection location, including at least one of the following: Synchronization signals are detected at the multiple detection locations to obtain synchronization signal detection information corresponding to each detection location; the synchronization signal is a signal initiated by the charging device for energy coupling with the device to be charged to transmit power. Distance signals are detected at the multiple detection locations to obtain distance signal detection information corresponding to each detection location; the distance signal represents the distance between the electronic device and the charging device. The reflected signals are detected at the multiple detection locations to obtain the reflected signal detection information corresponding to each detection location; the reflected signals represent the reflected signals of the charging device to the signals initiated at the multiple detection locations.

3. The processing method according to claim 1 or 2, wherein the signal detection information corresponding to at least one detection position satisfies the target condition, including at least one of the following: The signal detection information corresponding to at least one detection location satisfies the target signal condition; At least one detection location corresponds to a distance information that satisfies the target distance condition; wherein The distance information corresponding to each detection position is used to characterize the distance between the detection position and the charging device; the distance information corresponding to each detection position is generated by processing the signal detection information corresponding to the detection position; the target signal condition and the target distance condition are respectively conditions that can be used to characterize the proximity between the corresponding detection position and the charging device.

4. The processing method according to claim 1, determining whether the electronic device meets the charging conditions, includes: Determine whether the current wireless charging power of the electronic device has reached the power threshold. If so, the electronic device meets the charging conditions; If not, the electronic device does not meet the charging requirements.

5. The processing method according to claim 1, wherein information prompting processing is performed based on the signal detection information corresponding to each detection location, including: Based on the signal detection information corresponding to each detection position, the movement information for moving the electronic device is determined; Generate and output a prompt message containing the movement information.

6. The processing method according to claim 5, wherein movement information for moving the electronic device is determined based on the signal detection information corresponding to each detection position, including: Based on the signal detection information corresponding to each detection location, the distance between each detection location and the charging device is determined; Based on the distance between each detection position and the charging device, at least one of the moving direction and moving distance for moving the electronic device is determined.

7. The processing method according to claim 1, further comprising at least one of the following: In response to the signal detection information corresponding to at least one detection location satisfying the target condition, a charging confirmation prompt is issued if wireless charging is not activated; in response to receiving the charging confirmation information, wireless charging is activated. In response to the electronic device meeting the charging conditions, the electronic device is wirelessly charged using the charging device.

8. An electronic device, comprising: Multiple signal detection devices are respectively set at different detection positions of the electronic device. Each signal detection device is used to detect the charging signal to obtain the signal detection information corresponding to each detection position. The charging signal is related to the charging device used for wireless charging. Processor, used for: In response to the signal detection information corresponding to at least one detection location satisfying the target condition, and with wireless charging already activated, it is determined whether the electronic device meets the charging conditions. In response to the failure to meet charging conditions, information prompts are generated based on the signal detection information corresponding to each detection location. The information prompting process is used to instruct the adjustment of the relative position of the electronic device and the charging device so that the electronic device meets the charging conditions.

9. The electronic device according to claim 8, wherein the different signal detection positions are respectively set in different target neighborhood regions near the wireless charging component of the electronic device, and each target neighborhood region satisfies the adjacent condition with the wireless charging component.

10. The electronic device according to claim 8, wherein when the processor performs information prompting processing based on the signal detection information corresponding to each detection position, it is configured to: Based on the signal detection information corresponding to each detection position, the movement information for moving the electronic device is determined; Generate and output a prompt message containing the movement information.