CN106230074A - Portable power source charge control method and device - Google Patents

Abstract

The present disclosure relates to a charging control method and device for a mobile power supply. The method includes: receiving equipment identification information input by a user; Corresponding to the rechargeable device charged by the power supply; when the device logo information corresponds to the rechargeable device being charged by the mobile power supply, obtain the charging indication related to the mobile power supply and the rechargeable device being charged by the mobile power supply from the mobile power supply Information; notify the user that the equipment logo information corresponds to the rechargeable device being charged by the mobile power supply and the charging indication information. The charging control technology of the mobile power source of the present disclosure enables the user to grasp relevant information about the charging of the rechargeable device on the mobile power source at any time.

Description

Mobile power charging control method and device

technical field

The present disclosure relates to the technical field of mobile power supplies, in particular to a charging control method and device for mobile power supplies.

Background technique

With the development of technology, more and more smart home devices have entered our lives, such as sweeping robots, smart refrigerators, smart air purifiers, etc. These smart products can not only facilitate our lives, but also better expand the functions of the products. In the mobile Internet era, mobile power supplies guarantee the battery life of our mobile terminals. When the rechargeable device is low in power and is charged with a mobile power supply, people need to monitor the charging status of the rechargeable device by the mobile power supply at any time to help users judge the availability of the mobile power supply and the battery status of the rechargeable device being charged.

Contents of the invention

In order to overcome the problems existing in the related technologies, the embodiments of the present disclosure provide a charging control method and device for a mobile power supply.

According to a first aspect of an embodiment of the present disclosure, a method for controlling charging of a mobile power supply is provided, including:

Receive the device identification information input by the user;

Based on the corresponding relationship between the device identification information and the battery information of the battery of the rechargeable device, it is judged whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply;

When the device identification information corresponds to the rechargeable device being charged by the mobile power supply, obtaining charging information related to the mobile power supply and to the rechargeable device being charged by the mobile power supply from the mobile power supply instructions;

Notifying the user that the device identification information corresponds to the rechargeable device being charged by the mobile power source and the charging indication information.

Optionally, the method also includes:

The plurality of device identification information is stored in a one-to-one correspondence with the battery information of the batteries of the plurality of rechargeable devices.

Optionally, the method also includes:

When it is determined that the device identification information does not correspond to the rechargeable device being charged by the mobile power supply, it is determined whether the device identification information is consistent with the rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices Corresponding;

When it is determined that the device identification information corresponds to a chargeable device that is not charged by a mobile power source among the plurality of chargeable devices, notify the user that the device identification information corresponds to a chargeable device among the plurality of chargeable devices. Corresponds to rechargeable devices that are not charged by a power bank.

Optionally, the method also includes:

When it is determined that the device identification information does not correspond to a chargeable device that is not charged by the mobile power source among the plurality of chargeable devices, the user is notified that there is no chargeable device corresponding to the device identification information.

Optionally, the method also includes:

When it is determined that the device identification information corresponds to a chargeable device that has not been charged by the mobile power supply among the plurality of chargeable devices, obtaining charging indication information related to the mobile power supply from the mobile power supply;

Based on the charging instruction information and the battery information of the battery of the rechargeable device not charged by the mobile power supply, calculate the difference between the remaining power of the mobile power supply and the total capacity of the battery of the rechargeable device not charged by the mobile power supply ratio;

Notifying the user that the device identification information corresponds to the rechargeable device that is not charged by the mobile power source among the multiple rechargeable devices and the ratio.

Optionally, the device identification information includes at least one of fingerprints, characters, graphics and voice.

Optionally, the battery information includes the total capacity, charging voltage and charging current of the battery.

Optionally, the charging indication information includes the total capacity of the mobile power supply, the percentage of remaining power and the conversion efficiency of power, and the percentage of remaining power of the battery.

Optionally, the method also includes:

calculating a charging indication value based on the charging indication information;

generating charging prompt information based on the charging indication information and the charging indication value;

Notifying the user of the charging prompt information.

Optionally, the calculating the charging indication value based on the charging indication information includes:

The charging indication value N is calculated by the following formula:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Wherein, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining power percentage of the battery of the rechargeable device.

Optionally, the charging indication information includes a charging indication value calculated by the mobile power supply.

Optionally, the mobile power supply uses the following formula to calculate the charging indication value N:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Wherein, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining power percentage of the battery of the rechargeable device.

According to a second aspect of an embodiment of the present disclosure, there is provided a charging control device for a mobile power supply, including:

A receiving module configured to receive device identification information input by a user;

The first judging module is configured to judge whether the device logo information corresponds to the rechargeable device being charged by the mobile power supply based on the correspondence between the device logo information and the battery information of the battery of the rechargeable device;

The obtaining module is configured to obtain from the mobile power source the information related to the mobile power source and related to the mobile power source when the first judging module determines that the device identification information corresponds to the rechargeable device being charged by the mobile power source. The charging instruction information related to the rechargeable device being charged by the mobile power supply;

The notification module is configured to notify the user that the device identification information corresponds to a rechargeable device being charged by the mobile power supply and the charging indication information.

Optionally, the device also includes:

The storage module is configured to store the plurality of device identification information in a one-to-one correspondence with the battery information of the batteries of the plurality of rechargeable devices.

Optionally, the device also includes:

The second judgment module is configured to judge whether the device logo information is consistent with the plurality of Corresponding to the rechargeable device that is not charged by the mobile power source among the rechargeable devices,

Wherein, the notification module is configured to notify the user when the second judging module judges that the device identification information corresponds to a rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices The device identification information corresponds to a chargeable device that is not charged by the mobile power source among the plurality of chargeable devices.

Optionally, the notification module is configured to:

When the second judging module judges that the device identification information does not correspond to the rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices, notify the user that there is no corresponding device identification information rechargeable devices.

Optionally, the device also includes a computing module, wherein:

The obtaining module is configured to obtain from the mobile power supply when the second judging module judges that the device identification information corresponds to a rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices. Charging instruction information related to the mobile power supply;

The calculation module is configured to calculate the remaining power of the mobile power supply and the rechargeable device not charged by the mobile power supply based on the charging indication information and the battery information of the battery of the rechargeable device not charged by the mobile power supply. The ratio of the total capacity of the battery of the device;

The notification module is configured to notify the user that the device identification information corresponds to a rechargeable device that is not charged by the mobile power source among the plurality of rechargeable devices and the ratio.

Optionally, the device identification information includes at least one of fingerprints, characters, graphics and voice.

Optionally, the battery information includes the total capacity, charging voltage and charging current of the battery.

Optionally, the charging indication information includes the total capacity of the mobile power supply, the percentage of remaining power and the conversion efficiency of power, and the percentage of remaining power of the battery.

Optionally, the device also includes:

a calculation module configured to calculate a charging indication value based on the charging indication information;

a generating module configured to generate charging prompt information based on the charging indication information and the charging indication value,

Wherein, the notification module is configured to notify the user of the charging prompt information.

Optionally, the first calculation submodule is configured to:

The charging indication value N is calculated by the following formula:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Wherein, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining power percentage of the battery of the rechargeable device.

Optionally, the charging indication information includes a charging indication value calculated by the mobile power supply.

Optionally, the mobile power supply uses the following formula to calculate the charging indication value N:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Wherein, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining power percentage of the battery of the rechargeable device.

According to a third aspect of an embodiment of the present disclosure, there is provided a charging control device for a mobile power supply, including:

processor;

memory for storing processor-executable instructions;

Wherein, the processor is configured as:

Receive the device identification information input by the user;

Based on the corresponding relationship between the device identification information and the battery information of the battery of the rechargeable device, it is judged whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply;

When the device identification information corresponds to the rechargeable device being charged by the mobile power supply, obtaining charging information related to the mobile power supply and to the rechargeable device being charged by the mobile power supply from the mobile power supply instructions;

Notifying the user that the device identification information corresponds to the rechargeable device being charged by the mobile power source and the charging indication information.

The technical solutions provided by the embodiments of the present disclosure may include the following beneficial effects:

The embodiments of the present disclosure provide a charging control method and device for a mobile power supply. By receiving the equipment identification information input by the user; Corresponding to the charging rechargeable device; when the device logo information corresponds to the rechargeable device being charged by the mobile power supply, obtain the charging indication information related to the mobile power supply and the rechargeable device being charged by the mobile power supply from the mobile power supply ;Notify the user that the device logo information corresponds to the rechargeable device being charged by the mobile power supply and the charging indication information, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device logo information, and grasp it at any time Charging instructions for rechargeable devices charging on a power bank. Moreover, even if the mobile power supply is charging multiple rechargeable devices at the same time, the charging indication information of the device that the user cares about when charging on the mobile power supply can be obtained directly by inputting the corresponding device identification information, without the need for the user to go through cumbersome The operation is to filter the charging instruction information of the rechargeable device concerned among the charging instruction information of multiple charging devices. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the present disclosure.

Description of drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description serve to explain the principles of the disclosure.

Fig. 1 is a flow chart of a mobile power supply charging control method shown according to an exemplary embodiment of the present disclosure;

Fig. 2 is a flow chart of a part of a mobile power supply charging control method shown according to another exemplary embodiment of the present disclosure;

Fig. 3 is a flow chart of a part of a mobile power supply charging control method shown according to another exemplary embodiment of the present disclosure;

Fig. 4 is a block diagram of a mobile power charging control device shown according to an exemplary embodiment of the present disclosure;

Fig. 5 is a block diagram of a mobile power charging control device according to another exemplary embodiment of the present disclosure;

Fig. 6 is a block diagram of a mobile power charging control device according to another exemplary embodiment of the present disclosure;

Fig. 7 is a block diagram of a mobile power charging control device according to another exemplary embodiment of the present disclosure;

Fig. 8 is a diagram illustrating an application scenario of a mobile power charging control device according to a specific embodiment of the present disclosure;

Fig. 9 is a block diagram of a mobile power charging control device according to an exemplary embodiment of the present disclosure;

Fig. 10 is a block diagram of another mobile power charging control device according to an exemplary embodiment of the present disclosure.

detailed description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numerals in different drawings refer to the same or similar elements unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatuses and methods consistent with aspects of the present disclosure as recited in the appended claims.

When it is necessary to use a mobile power source to charge a rechargeable device such as a mobile terminal, the technology of the present disclosure can be applied. In this disclosure, a rechargeable device refers to any device that can be charged by a mobile power source, such as a mobile phone, a computer, a digital broadcast terminal, a messaging device, a game console, a tablet device, a medical device, a sweeping robot, and a smart refrigerator , smart air purifiers, fitness equipment, personal digital assistants, etc. In the mobile power supply charging control technology of the present disclosure, by receiving the equipment identification information input by the user; Corresponding to the charging device; when the device logo information corresponds to the rechargeable device being charged by the mobile power supply, obtain the charging indication information related to the mobile power supply and the rechargeable device being charged by the mobile power supply from the mobile power supply; notify the user The device logo information corresponds to the rechargeable device being charged by the mobile power supply and the charging indication information, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power source at any time by inputting the device logo information, and grasp the rechargeable device at any time Charging instructions for charging on a power bank. Moreover, even if the mobile power supply is charging multiple rechargeable devices at the same time, the charging indication information of the device that the user cares about when charging on the mobile power supply can be obtained directly by inputting the corresponding device identification information, without the need for the user to go through cumbersome The operation is to filter the charging instruction information of the rechargeable device concerned among the charging instruction information of multiple charging devices. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

Fig. 1 is a flow chart of a method for controlling charging of a mobile power supply according to an exemplary embodiment of the present disclosure, and the method includes the following steps S110, S120, S130, S140, S150, S160 and S170.

In step S110, device identification information input by the user is received.

In one embodiment, the battery information may include the battery's total capacity, charging voltage and charging current. Generally speaking, a user may have multiple different rechargeable devices, and the batteries of each rechargeable device are different, that is, each rechargeable device has a one-to-one correspondence with the battery information of its battery. Therefore, the chargeable devices can be distinguished by the battery information of the battery of each chargeable device.

In one embodiment, the device identification information may include at least one of fingerprints, characters, graphics and voice.

In one embodiment, when the user wants to monitor the relevant situation that the mobile power supply is charging one of his rechargeable devices, the user can input the device identification information to obtain the rechargeable device corresponding to the device identification information from the mobile power supply. Information about the current charging status of the device.

In step S120, based on the correspondence between the device identifier information and the battery information of the battery of the rechargeable device, it is determined whether the device identifier information corresponds to the rechargeable device being charged by the mobile power supply.

In one embodiment, the received device identification information corresponds to the rechargeable device being charged by the mobile power source, which will be described below with reference to step S130. In another embodiment, the received device identification information does not correspond to the rechargeable device being charged by the mobile power source, which will be described below with reference to step S150.

When it is determined in step S120 that the device identification information corresponds to the rechargeable device being charged by the mobile power source, in step S130, the information related to the mobile power source and related to the rechargeable device being charged by the mobile power source is obtained from the mobile power source Charging instructions.

In one embodiment, the charging instruction information may refer to all information obtained from the mobile power source and related to the charging process of the rechargeable device being charged by the mobile power source. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, the conversion efficiency of power, and the percentage of remaining power of the battery. In another embodiment, the charging indication information may also include the temperature of the battery in addition to the aforementioned information.

In one embodiment, the charging indication information related to the mobile power supply and related to the rechargeable device being charged by the mobile power supply can be obtained from the mobile power supply in a wired or wireless manner. For example, the charging indication information can be obtained by connecting the mobile power supply with a data cable. For another example, the charging indication information can be obtained from the mobile power supply through wireless communication methods such as WIFI, Bluetooth, and infrared.

In step S140, the user equipment is notified that the identification information corresponds to the rechargeable equipment being charged by the mobile power supply and the charging indication information.

In one embodiment, based on the judgment of the device identification information input by the user, it is determined that the received device identification information corresponds to the rechargeable device being charged by the mobile power supply, so the user can be notified of this information, and at the same time, the The charging indication information related to the mobile power source and related to the rechargeable device being charged by the mobile power source obtained in step S130 is notified to the user.

In the mobile power charging control method of the present disclosure, the device identification information input by the user is received; based on the corresponding relationship between the device identification information and the battery information of the battery of the rechargeable device, it is judged whether the device identification information is consistent with the rechargeable device being charged by the mobile power supply. Corresponding to the device; when it is judged that the device logo information corresponds to the rechargeable device being charged by the mobile power supply, obtain charging indication information related to the mobile power supply and the rechargeable device being charged by the mobile power supply from the mobile power supply; notify The user equipment logo information corresponds to the rechargeable device being charged by the mobile power supply and the charging indication information, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device logo information, and grasp the rechargeable device at any time. Charging indication for the device charging on the power bank. Moreover, even if the mobile power supply is charging multiple rechargeable devices at the same time, the charging indication information of the device that the user cares about when charging on the mobile power supply can be obtained directly by inputting the corresponding device identification information, without the need for the user to go through cumbersome The operation is to filter the charging instruction information of the rechargeable device concerned among the charging instruction information of multiple charging devices. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

An example of the charging instruction information in step S130 explained with reference to FIG. 1 will be described below in a specific embodiment. In this example, the charging indication information includes a charging indication value calculated by the mobile power supply.

Specifically, the mobile power supply uses the following formula to calculate the charging indication value N:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Among them, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining capacity of the battery of the rechargeable device battery percentage.

It can be seen from the above formula that the charging indication value N can be the ratio obtained by dividing the remaining power of the mobile power supply through (power conversion efficiency ω) converted value _{ωP T} α by the total capacity MT of the battery of the rechargeable device plus the rechargeable The sum of the remaining battery percentage values β of the device's battery.

In one example, according to the above formula, it is assumed that the power conversion efficiency ω is 80%, the total capacity of the mobile power supply is 10000mAh, the remaining power percentage of the mobile power supply is 80%, and the total capacity MT of the battery of the rechargeable device is 4000mAh _. If the remaining power percentage β of the battery of the charging device is 20%, the value of the charging indication value N is 180%. This means that the power bank in this example has enough remaining capacity to fully charge the remaining 20% of the rechargeable device's battery, and when fully charged, also be able to charge a completely empty battery that is the same as the rechargeable device's battery 80% battery.

In another example, according to the above formula, assuming that the power conversion efficiency ω is 80%, the total capacity of the mobile power supply is 10000mAh, the remaining power percentage of the mobile power supply is 20%, and the total capacity _MT of the battery of the rechargeable device is 4000mAh, The remaining power percentage β of the battery of the rechargeable device is 20%, and the charging indication value N is 60%. This means that the remaining power of the mobile power supply in this example cannot fully charge the battery of the rechargeable device, and can only charge the remaining 20% of the battery of the rechargeable device to 60% of the power.

Those skilled in the art can understand that the determination of the charging indication value according to the above method is only an example, and according to the teaching of the present disclosure, other forms of charging indication values can be determined in other ways.

Continuing to refer to Fig. 1, when it is judged in step S120 that the equipment identification information does not correspond to the rechargeable equipment being charged by the mobile power supply, in step S150, it is judged whether the equipment identification information is consistent with the unmoved one of the plurality of rechargeable equipment. Corresponds to the rechargeable device charged by the power supply.

In one embodiment, the power bank charges some of the user's plurality of chargeable devices for which battery information is stored, while the other part of the chargeable devices is not charged. In this case, when the device identification information input by the user does not correspond to the rechargeable device being charged by the mobile power source, it is necessary to determine whether the device identification information corresponds to the rechargeable device not being charged by the mobile power source.

When it is determined in step S150 that the device identification information corresponds to a chargeable device that has not been charged by the mobile power source among the plurality of chargeable devices, in step S160, the user is notified that the device identification information corresponds to the chargeable device that has not been charged by the mobile power supply among the plurality of chargeable devices. Corresponding to the rechargeable device charged by the mobile power source.

In one embodiment, when the device identification information input by the user corresponds to a rechargeable device that is not charged by the mobile power source among the plurality of rechargeable devices whose battery information is stored, although the rechargeable device is not charged by the mobile power source , but also notify the user of this condition.

In the mobile power supply charging control method of the present disclosure, when it is judged that the equipment identification information does not correspond to the rechargeable equipment being charged by the mobile power supply, it is judged whether the equipment identification information is consistent with that of the multiple rechargeable equipment that is not charged by the mobile power supply. corresponding to the rechargeable device; when it is judged that the device identification information corresponds to the rechargeable device that has not been charged by the mobile power supply among the multiple rechargeable devices, notify the user that the equipment identification information corresponds to the unmoved rechargeable device among the multiple rechargeable devices Corresponding to the rechargeable device charged by the power supply, the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device identification information. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

Continuing to refer to Fig. 1, when it is judged in step S150 that the device identification information does not correspond to the rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices, in step S170, the user is notified that there is no corresponding device identification information. rechargeable devices.

In one embodiment, when the device identification information entered by the user does not correspond to multiple chargeable devices for which battery information has been stored, the user is notified of this situation. This situation may occur because the user has misremembered all the stored equipment identification information, or because the equipment identification information input by the user is inaccurate.

In the mobile power supply charging control method of the present disclosure, when it is judged that the equipment identification information does not correspond to the rechargeable equipment that has not been charged by the mobile power supply among the plurality of rechargeable equipment, the user is notified that there is no corresponding equipment identification information. Charging equipment, so that users can accurately monitor whether the rechargeable equipment they care about is being charged by the mobile power supply by inputting equipment identification information, and will not cause the user's rechargeable equipment to be displayed incorrectly due to the input of unstored equipment identification information. Information about charging. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

In one embodiment, the mobile power charging control method according to the present disclosure may further include a step of: storing a plurality of device identification information in a one-to-one correspondence with battery information of batteries of a plurality of rechargeable devices.

In one embodiment, when the user sets one piece of equipment identification information for each rechargeable device, a plurality of pieces of equipment identification information may be stored in a one-to-one correspondence with the battery information of the batteries of the multiple rechargeable devices. Therefore, a plurality of stored device identification information is in one-to-one correspondence with a plurality of chargeable devices. That is, one piece of device identification information has a unique correspondence with one chargeable device.

In one embodiment, the ten finger prints of the user may be stored in one-to-one correspondence with the battery information of the batteries of the ten rechargeable devices. For another example, a plurality of specific characters such as numbers, letters, and Chinese characters set by the user, graphics such as circles, squares, and triangles, and voices such as specific syllables issued by the user can be combined with multiple available characters. The battery information of the battery of the charging device is stored in a one-to-one correspondence.

In the mobile power supply charging control method of the present disclosure, by storing a plurality of device identification information in a one-to-one correspondence with the battery information of the batteries of multiple rechargeable devices, the user can grasp the device identification information and battery information of multiple rechargeable devices. The corresponding relationship of the battery information, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device identification information. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

Fig. 2 is a flow chart of a part of a method for controlling charging of a mobile power supply according to another exemplary embodiment of the present disclosure. The flowchart shown in FIG. 2 can be regarded as a modification of step S160 in FIG. 1 , and this modification includes steps S210, S220 and S230.

In step S210, when it is determined in step S150 that the device identification information corresponds to a chargeable device that is not charged by the mobile power source among the plurality of chargeable devices, the charging indication information related to the mobile power source is obtained from the mobile power source.

In one embodiment, the charging indication information may refer to all information related to the mobile power supply and its working status obtained from the mobile power supply. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, and the power conversion efficiency.

In step S220, based on the charging indication information and the battery information of the battery of the rechargeable device not charged by the mobile power source, the ratio of the remaining power of the mobile power source to the total capacity of the battery of the rechargeable device not charged by the mobile power source is calculated.

In one embodiment, based on the total capacity of the mobile power source obtained from the mobile power source, the percentage of remaining power and the power conversion efficiency, and the total capacity of the battery of the rechargeable device that has not been charged by the mobile power source, the difference between the remaining capacity of the mobile power source and the battery that has not been charged by the mobile power source is calculated. The ratio of the total capacity of the battery of the rechargeable device charged by the mobile power. For example, the total capacity of the mobile power obtained from the mobile power is 10000mAh, the percentage of remaining power is 80%, the power conversion efficiency is 80%, and the total capacity of the battery of the rechargeable device that is not charged by the mobile power is 4000mAh, then calculate the mobile power The ratio of the remaining power of the battery to the total capacity of the battery of the rechargeable device not charged by the mobile power source is 10000*80%*80%/4000=160% or 1.6. This means that the remaining power of the power bank can fully charge the battery of a completely dead rechargeable device, and then recharge an identical completely dead battery by 60%. In other words, this means that the remaining capacity of the power bank can fully charge the battery of a completely empty rechargeable device 1.6 times.

In step S230, the user is notified of the correspondence and ratio of the flag information of the user equipment to the rechargeable equipment that is not charged by the mobile power source among the multiple rechargeable equipment.

In one embodiment, the user is notified that the device identification information corresponds to the rechargeable device that is not charged by the mobile power source among the plurality of rechargeable devices, and the user is also notified of the ratio calculated in step S210. In one example, while notifying the user that the device identification information corresponds to a chargeable device that has not been charged by the mobile power supply among the plurality of rechargeable devices, the user is notified that the remaining power of the mobile power supply will be fully rechargeable. A device's battery is 160% full, or, notifying the user of the power bank's remaining charge can fully recharge the battery of a completely dead rechargeable device 1.6 times.

In the mobile power supply charging control method of the present disclosure, when it is judged that the device identification information corresponds to a chargeable device that has not been charged by the mobile power supply among the plurality of rechargeable devices, the charging instruction related to the mobile power supply is obtained from the mobile power supply Information; based on the charging indication information and the battery information of the battery of the rechargeable device not charged by the mobile power supply, calculate the ratio of the remaining power of the mobile power supply to the total capacity of the battery of the rechargeable device not charged by the mobile power supply; notify the user of the device flag The information corresponds to the rechargeable device that is not charged by the mobile power source among the multiple rechargeable devices and the ratio, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power source at any time by inputting the device identification information, even if If the rechargeable device is not charged by the mobile power supply, effective charging reference can also be provided to the user based on the charging indication information and the battery information of the battery of the rechargeable device that is not charged by the mobile power supply. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

Fig. 3 is a flow chart showing part of a method for controlling charging of a mobile power supply according to another exemplary embodiment of the present disclosure. Steps S310, S320 and S330 in the flow chart shown in FIG. 3 can replace step S140 in FIG. 1, so as to provide a new embodiment in combination with steps S110, S120 and S130 in FIG.

In step S310, a charging indication value is calculated based on the charging indication information.

In one embodiment, the charging instruction information may refer to all information obtained from the mobile power source and related to the charging process of the rechargeable device being charged by the mobile power source. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, the conversion efficiency of power, and the percentage of remaining power of the battery. In another embodiment, the charging indication information may also include the temperature of the battery in addition to the aforementioned information.

In one embodiment, the charging indication value may indicate whether the remaining power of the mobile power supply can fully charge the battery of the rechargeable device being charged by the mobile power supply, and how much it can charge. In another embodiment, the charging indication value may indicate the value obtained by dividing the converted calculated value of the remaining power of the mobile power supply by the total capacity of the battery of the rechargeable device being charged by the mobile power supply plus the remaining value of the battery of the rechargeable device. The sum of the battery percentage values. In another embodiment, the charge indicator value may indicate the percentage of power that the power bank has consumed relative to the battery of the rechargeable device being charged by the power bank. In another embodiment, the charging indication value may be the amount of power that the mobile power supply can charge the battery of the rechargeable device being charged by the mobile power supply. In another embodiment, the charging indication value may be various values such as charging times. In short, the charging indication value can indicate whether the remaining power of the mobile power supply can fully charge the battery of the rechargeable device being charged by the mobile power supply, and how much the remaining power of the mobile power supply is compared to that of the rechargeable device being charged by the mobile power supply. What state is the required charge of the battery.

In one embodiment, the power conversion efficiency can be determined according to battery information and mobile power supply information. Knowing the power conversion efficiency can determine how much power from the power bank can be converted into the power of the battery of the rechargeable device. In one embodiment, determining the power conversion efficiency can help to calculate the charging indication value of the mobile power supply for the rechargeable device.

According to relevant research, the power conversion efficiency may be related to mobile power information such as the total capacity of the mobile power, remaining power, power conversion efficiency, standard voltage, temperature, and the total capacity of the battery of the rechargeable device, remaining power, charging voltage, Some or all of the battery information such as charging current and temperature are relevant. In one embodiment, a comparison table can be preset to compare the power conversion efficiency with the mobile power source information and battery information, so as to determine the power conversion efficiency according to the obtained mobile power source information and battery information. In another embodiment, the power conversion efficiency can be calculated according to the battery temperature, charging voltage, charging current of the rechargeable device, and the temperature and standard voltage of the mobile power supply using only algorithms in the related art. In other words, related technologies can be used to determine the power conversion efficiency, which will not be described in detail in this disclosure.

In step S320, charging prompt information is generated based on the charging indication information and the charging indication value.

In one embodiment, the charging prompt information may include one or more of the current battery percentage prompt, estimated full time prompt, full charge prompt and stop charging prompt of the battery of the rechargeable device being charged by the mobile power supply, It may also include one or more information of the mobile power supply, such as a reminder of the remaining power, a reminder of the percentage of remaining power, a reminder of insufficient remaining power, and a reminder of stopping charging. In one embodiment, when the mobile power supply is charging multiple rechargeable devices at the same time, the charging prompt information may include a reminder of how many rechargeable devices are being charged by the mobile power supply at the same time, how much power is available in the current remaining power of the mobile power supply A reminder that the device being charged corresponding to the device logo information input by the user is charging, and a reminder that the current remaining power of the mobile power supply can be used to charge the device being charged corresponding to the device logo information input by the user. 1. One or more items in the current remaining power of the mobile power supply, which can be used to charge the device being charged corresponding to the device identification information input by the user, such as the prompt that the power is insufficient. That is, the charging prompt information may include any information related to the battery of the rechargeable device being charged by the mobile power source and information related to the mobile power source.

In step S330, the user is notified of charging prompt information.

In the mobile power supply charging control method of the present disclosure, by calculating the charging indication value based on the charging indication information; generating charging prompt information based on the charging indication information and the charging indication value; notifying the user of the charging prompt information, so that the user can understand the remaining power of the mobile power supply Whether it can fully charge the battery of the rechargeable device, and how much charge it can charge. Moreover, the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply, and grasp the charging prompt information of the rechargeable device being charged on the mobile power supply at any time. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

An exemplary implementation of step S310 described with reference to FIG. 3 is described below in a specific embodiment.

Specifically, calculating the charging indication value based on the charging indication information includes calculating the charging indication value N by using the following formula:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Among them, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining capacity of the battery of the rechargeable device battery percentage.

It can be seen from the above formula that the charging indication value N can be the ratio obtained by dividing the remaining power of the mobile power supply through (power conversion efficiency ω) converted value _{ωP T} α by the total capacity MT of the battery of the rechargeable device plus the rechargeable The sum of the remaining battery percentage values β of the device's battery.

Those skilled in the art can understand that the determination of the charging indication value according to the above method is only an example, and according to the teaching of the present disclosure, other forms of charging indication values can be determined in other ways.

The mobile power charging control device according to an exemplary embodiment of the present disclosure will be described below with reference to FIGS. 4 to 7 .

Fig. 4 is a block diagram of a charging control device for a mobile power supply according to an exemplary embodiment of the present disclosure; Notify module 440 .

The receiving module 410 is configured to receive device identification information input by a user.

In one embodiment, the battery information may include the battery's total capacity, charging voltage and charging current. Generally speaking, a user may have multiple different rechargeable devices, and the batteries of each rechargeable device are different, that is, each rechargeable device has a one-to-one correspondence with the battery information of its battery. Therefore, the chargeable devices can be distinguished by the battery information of the battery of each chargeable device.

In one embodiment, the device identification information may include at least one of fingerprints, characters, graphics and voice.

In one embodiment, when the user wants to monitor the relevant situation that the mobile power supply is charging one of his rechargeable devices, the user can input the device identification information to obtain the rechargeable device corresponding to the device identification information from the mobile power supply. Information about the current charging status of the device.

The first determination module 420 is configured to determine whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply based on the correspondence between the device identification information and the battery information of the battery of the rechargeable device.

In one embodiment, the received device identification information corresponds to a rechargeable device being charged by the power bank, which will be described with reference to the obtaining module 430 below. In another embodiment, the received device identification information does not correspond to the rechargeable device being charged by the mobile power supply, which will be described below with reference to the second judging module 610 in FIG. 6 .

The obtaining module 430 is configured to obtain from the mobile power source the rechargeable device related to the mobile power source and being charged by the mobile power source when the first judging module 420 determines that the device identification information corresponds to the rechargeable device being charged by the mobile power source. Relevant charging instructions.

In one embodiment, the charging instruction information may refer to all information obtained from the mobile power source and related to the charging process of the rechargeable device being charged by the mobile power source. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, the conversion efficiency of power, and the percentage of remaining power of the battery. In another embodiment, the charging indication information may also include the temperature of the battery in addition to the aforementioned information.

In one embodiment, the charging indication information related to the mobile power supply and related to the rechargeable device being charged by the mobile power supply can be obtained from the mobile power supply in a wired or wireless manner. For example, the charging indication information can be obtained by connecting the mobile power supply with a data cable. For another example, the charging indication information can be obtained from the mobile power supply through wireless communication methods such as WIFI, Bluetooth, and infrared.

The notification module 440 is configured to notify the user that the equipment identification information corresponds to the rechargeable equipment being charged by the mobile power supply and the charging indication information.

In one embodiment, based on the judgment of the device logo information input by the user, it is determined that the device logo information corresponds to the rechargeable device being charged by the mobile power supply, so the user can be notified of this information, and at the same time, the acquisition module 430 The acquired charging indication information related to the mobile power supply and related to the rechargeable device being charged by the mobile power supply is notified to the user.

In the mobile power charging control device of the present disclosure, the receiving module is configured to receive the device identification information input by the user; the first judgment module is configured to, based on the correspondence between the device identification information and the battery information of the battery of the rechargeable device, Judging whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply; The power supply acquires charging instruction information related to the mobile power supply and the rechargeable device being charged by the mobile power supply; the notification module is configured to notify the user that the equipment flag information corresponds to the rechargeable device being charged by the mobile power supply and the charging instruction information , so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device identification information, and grasp the charging indication information of the rechargeable device charging on the mobile power supply at any time. Moreover, even if the mobile power supply is charging multiple rechargeable devices at the same time, the charging indication information of the device that the user cares about when charging on the mobile power supply can be obtained directly by inputting the corresponding device identification information, without the need for the user to go through cumbersome The operation is to filter the charging instruction information of the rechargeable device concerned among the charging instruction information of multiple charging devices. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

An example of the charging instruction information acquired by the acquisition module 430 described with reference to FIG. 4 is described below in a specific embodiment. In this example, the charging indication information includes a charging indication value calculated by the mobile power supply.

Specifically, the mobile power supply uses the following formula to calculate the charging indication value N:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Among them, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining capacity of the battery of the rechargeable device battery percentage.

It can be seen from the above formula that the charging indication value N can be the ratio obtained by dividing the remaining power of the mobile power supply through (power conversion efficiency ω) converted value _{ωP T} α by the total capacity MT of the battery of the rechargeable device plus the rechargeable The sum of the remaining battery percentage values β of the device's battery.

In one example, according to the above formula, it is assumed that the power conversion efficiency ω is 80%, the total capacity of the mobile power supply is 10000mAh, the remaining power percentage of the mobile power supply is 80%, and the total capacity MT of the battery of the rechargeable device is 4000mAh _. If the remaining power percentage β of the battery of the charging device is 20%, the value of the charging indication value N is 180%. This means that the power bank in this example has enough remaining capacity to fully charge the remaining 20% of the rechargeable device's battery, and when fully charged, also be able to charge a completely empty battery that is the same as the rechargeable device's battery 80% battery.

In another example, according to the above formula, assuming that the power conversion efficiency ω is 80%, the total capacity of the mobile power supply is 10000mAh, the remaining power percentage of the mobile power supply is 20%, and the total capacity _MT of the battery of the rechargeable device is 4000mAh, The remaining power percentage β of the battery of the rechargeable device is 20%, and the charging indication value N is 60%. This means that the remaining power of the mobile power supply in this example cannot fully charge the battery of the rechargeable device, and can only charge the remaining 20% of the battery of the rechargeable device to 60% of the power.

Fig. 5 is a block diagram of a mobile power charging control device shown according to another exemplary embodiment of the present disclosure; In addition to the same modules as 430 and notification module 440 , the mobile power charging control device shown in FIG. 5 also includes a storage module 510 .

The storage module 510 is configured to store a plurality of device identification information in a one-to-one correspondence with battery information of batteries of a plurality of rechargeable devices.

In one embodiment, when the user sets one piece of equipment identification information for each rechargeable device, a plurality of pieces of equipment identification information may be stored in a one-to-one correspondence with the battery information of the batteries of the multiple rechargeable devices. Therefore, a plurality of stored device identification information is in one-to-one correspondence with a plurality of chargeable devices. That is, one piece of device identification information has a unique correspondence with one chargeable device.

In one embodiment, the ten finger prints of the user may be stored in one-to-one correspondence with the battery information of the batteries of the ten rechargeable devices. For another example, a plurality of specific characters such as numbers, letters, and Chinese characters set by the user, graphics such as circles, squares, and triangles, and voices such as specific syllables issued by the user can be combined with multiple available characters. The battery information of the battery of the charging device is stored in a one-to-one correspondence.

In the mobile power charging control device of the present disclosure, through the storage module, it is configured to store a plurality of device identification information in a one-to-one correspondence with the battery information of the batteries of a plurality of rechargeable devices, so that the user can grasp a plurality of rechargeable devices The corresponding relationship between the device identification information and the battery information of the battery, so that the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply at any time by inputting the device identification information. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

Those skilled in the art can understand that the determination of the charging indication value according to the above method is only an example, and according to the teaching of the present disclosure, other forms of charging indication values can be determined in other ways.

Fig. 6 is a block diagram of a mobile power charging control device shown according to another exemplary embodiment of the present disclosure; as shown in Fig. 430 , except that the notification module 440 is the same as the storage module 510 , the mobile power charging control device shown in FIG. 6 further includes a second judging module 610 .

The second judging module 610 is configured to, when the first judging module 420 judges that the device logo information does not correspond to a rechargeable device that is being charged by a mobile power supply, judge whether the device logo information is consistent with a chargeable device that is not being charged by a mobile power supply among a plurality of rechargeable devices. Charge corresponding to the rechargeable device.

In one embodiment, the power bank charges some of the user's plurality of chargeable devices for which battery information is stored, while the other part of the chargeable devices is not charged. In this case, when the device identification information input by the user does not correspond to the rechargeable device being charged by the mobile power source, it is necessary to determine whether the device identification information corresponds to the rechargeable device not being charged by the mobile power source.

The notification module 440 is configured to, when the second judging module 610 is configured to judge that the device logo information corresponds to a rechargeable device that is not charged by the mobile power source among the multiple rechargeable devices, notify the user that the device logo information corresponds to a plurality of rechargeable devices. Corresponds to the rechargeable device that is not charged by the mobile power supply in the charging device.

In one embodiment, when the device identification information input by the user corresponds to a rechargeable device that is not charged by the mobile power source among the plurality of rechargeable devices whose battery information is stored, although the rechargeable device is not charged by the mobile power source , but also notify the user of this condition.

In the mobile power charging control device of the present disclosure, the second judging module is configured to judge the device logo information when the first judging module judges that the device logo information does not correspond to the rechargeable device being charged by the mobile power source Whether it corresponds to a rechargeable device that is not charged by a mobile power source among the multiple rechargeable devices; wherein, the notification module is configured to determine that when the second judging module determines that the device identification information is the same as that of the multiple rechargeable devices When corresponding to a rechargeable device that is not charged by a mobile power source, the user is notified that the device logo information corresponds to a rechargeable device that is not charged by a mobile power source among multiple rechargeable devices, so that the user can monitor at any time by inputting the device logo information Whether the rechargeable device you care about is being charged by a mobile power source. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

In one embodiment, the notification module 440 is configured to notify the user that there is no corresponding device when the second judging module 610 judges that the device identification information does not correspond to the rechargeable device that is not charged by the mobile power source among the multiple rechargeable devices. The rechargeable device corresponding to the flag information.

In one embodiment, when the device identification information entered by the user does not correspond to multiple chargeable devices for which battery information has been stored, the user is notified of this situation. This situation may occur because the user has misremembered all the stored equipment identification information, or because the equipment identification information input by the user is inaccurate.

In the mobile power supply charging control device of the present disclosure, the notification module is configured to notify the user when the second judging module judges that the device identification information does not correspond to a rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices There is no rechargeable device corresponding to the device logo information, so that the user can accurately monitor whether the rechargeable device he cares about is being charged by the mobile power supply by inputting the device logo information, and will not be caused by inputting unstored device logo information. Incorrectly display charging-related information for the user's rechargeable device. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

Continuing to refer to FIG. 6 , the notification module 440 is configured to, when the second judging module 610 judges that the device identification information does not correspond to the rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices, notify the user that there is no The rechargeable device corresponding to the received device identification information.

In one embodiment, when the device identification information entered by the user does not correspond to multiple chargeable devices for which battery information has been stored, the user is notified of this situation. This situation may occur because the user has misremembered all the stored equipment identification information, or because the equipment identification information input by the user is inaccurate.

In the mobile power supply charging control device of the present disclosure, the notification module is configured such that when the second judging module judges that the device identification information does not correspond to a rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices, Inform the user that there is no rechargeable device corresponding to the device logo information, so that the user can accurately monitor whether the rechargeable device he cares about is being charged by the mobile power supply by inputting the device logo information, without entering an unstored device logo The message caused incorrect display of charging-related information for the user's rechargeable device. Therefore, the mobile power charging control technology of the present disclosure can help the user to intuitively grasp the charging related information of the mobile power, facilitate the user to arrange the charging plan, and can scientifically control the battery power of the rechargeable device, prolong the battery life, and improve the user experience.

Fig. 7 is a block diagram of a mobile power charging control device shown according to another exemplary embodiment of the present disclosure; as shown in Fig. 430 , the notification module 440 , the storage module 510 and the second judging module 610 are the same modules, the mobile power charging control device shown in FIG. 7 further includes a calculation module 710 .

The acquiring module 430 is configured to, when the second judging module 610 judges that the device identification information corresponds to a rechargeable device that has not been charged by the power bank among the plurality of rechargeable devices, acquire a charging instruction related to the power bank from the power bank information.

In one embodiment, the charging indication information may refer to all information related to the mobile power supply and its working status obtained from the mobile power supply. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, and the power conversion efficiency.

The calculation module 710 is configured to, based on the charging instruction information and the battery information of the battery of the rechargeable device not charged by the mobile power supply, calculate the ratio of the remaining power of the mobile power supply to the total capacity of the battery of the rechargeable device not charged by the mobile power supply .

In one embodiment, the calculation module 710 calculates the remaining power of the power bank based on the total capacity of the power bank obtained from the power bank, the percentage of remaining power and the conversion efficiency of power, and the total capacity of batteries of rechargeable devices that are not charged by the power bank The ratio of the total capacity of the battery of the rechargeable device that is not charged by the power bank. For example, the total capacity of the mobile power obtained from the mobile power is 10000mAh, the percentage of remaining power is 80%, the power conversion efficiency is 80%, and the total capacity of the battery of the rechargeable device that is not charged by the mobile power is 4000mAh, then calculate the mobile power The ratio of the remaining power of the battery to the total capacity of the battery of the rechargeable device not charged by the mobile power source is 10000*80%*80%/4000=160% or 1.6. This means that the remaining power of the power bank can fully charge the battery of a completely dead rechargeable device, and then recharge an identical completely dead battery by 60%. In other words, this means that the remaining capacity of the power bank can fully charge the battery of a completely empty rechargeable device 1.6 times.

The notification module 440 is configured to notify the user that the flag information of the user equipment corresponds to a chargeable device that is not charged by the mobile power source among the plurality of chargeable devices and the ratio thereof.

In one embodiment, the notification module 440 notifies the user of the information that the device identification information corresponds to the rechargeable device that has not been charged by the mobile power source among the plurality of rechargeable devices, and at the same time notifies the user of the ratio calculated by the calculation module 710 . In one example, while notifying the user that the device identification information corresponds to a chargeable device that has not been charged by the mobile power supply among the plurality of rechargeable devices, the user is notified that the remaining power of the mobile power supply will be fully rechargeable. A device's battery is 160% full, or, notifying the user of the power bank's remaining charge can fully recharge the battery of a completely dead rechargeable device 1.6 times.

In the mobile power supply charging control device of the present disclosure, the passing device further includes a calculation module, wherein: the acquisition module is configured to, when the second judging module judges that the device identification information is consistent with the rechargeable device that is not charged by the mobile power supply When the charging device is corresponding, the charging instruction information related to the mobile power supply is obtained from the mobile power supply; the calculation module is configured to calculate the remaining power of the mobile power supply based on the charging instruction information and the battery information of the battery of the rechargeable device that is not charged by the mobile power supply The ratio to the total capacity of the battery of the rechargeable device that is not charged by the mobile power supply; the notification module is configured to notify the user that the equipment flag information corresponds to the rechargeable device that is not charged by the mobile power supply among the plurality of rechargeable devices, and the ratio, It enables users to monitor whether the rechargeable device they care about is being charged by the mobile power supply at any time by inputting the device identification information. The battery information of the battery to provide users with effective charging reference. Therefore, the mobile power charging control technology of the present disclosure can help users intuitively grasp the mobile power information of the mobile power and the charging related information of the rechargeable device being charged by the mobile power, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

Fig. 8 is a block diagram of a mobile power charging control device shown according to another exemplary embodiment of the present disclosure; 430 , the notification module 440 and the storage module 510 are the same modules, the mobile power charging control device shown in FIG. 8 also includes a calculation module 810 and a generation module 820 .

The calculation module 810 is configured to calculate a charging indication value based on the charging indication information.

In one embodiment, the charging instruction information may refer to all information obtained from the mobile power source and related to the charging process of the rechargeable device being charged by the mobile power source. In one embodiment, the charging indication information may include the total capacity of the mobile power supply, the percentage of remaining power, the conversion efficiency of power, and the percentage of remaining power of the battery. In another embodiment, the charging indication information may also include the temperature of the battery in addition to the aforementioned information.

In one embodiment, the charging indication value may indicate whether the remaining power of the mobile power supply can fully charge the battery of the rechargeable device being charged by the mobile power supply, and how much it can charge. In another embodiment, the charging indication value may indicate the value obtained by dividing the converted calculated value of the remaining power of the mobile power supply by the total capacity of the battery of the rechargeable device being charged by the mobile power supply plus the remaining value of the battery of the rechargeable device. The sum of the battery percentage values. In another embodiment, the charge indicator value may indicate the percentage of power that the power bank has consumed relative to the battery of the rechargeable device being charged by the power bank. In another embodiment, the charging indication value may be the amount of power that the mobile power supply can charge the battery of the rechargeable device being charged by the mobile power supply. In another embodiment, the charging indication value may be various values such as charging times. In short, the charging indication value can indicate whether the remaining power of the mobile power supply can fully charge the battery of the rechargeable device being charged by the mobile power supply, and how much the remaining power of the mobile power supply is compared to that of the rechargeable device being charged by the mobile power supply. What state is the required charge of the battery.

In one embodiment, the power conversion efficiency can be determined according to battery information and mobile power supply information. Knowing the power conversion efficiency can determine how much power from the power bank can be converted into the power of the battery of the rechargeable device. In one embodiment, determining the power conversion efficiency can help to calculate the charging indication value of the mobile power supply for the rechargeable device.

According to relevant research, the power conversion efficiency may be related to mobile power information such as the total capacity of the mobile power, remaining power, power conversion efficiency, standard voltage, temperature, and the total capacity of the battery of the rechargeable device, remaining power, charging voltage, Some or all of the battery information such as charging current and temperature are relevant. In one embodiment, a comparison table can be preset to compare the power conversion efficiency with the mobile power source information and battery information, so as to determine the power conversion efficiency according to the obtained mobile power source information and battery information. In another embodiment, the power conversion efficiency can be calculated according to the battery temperature, charging voltage, charging current of the rechargeable device, and the temperature and standard voltage of the mobile power supply using only algorithms in the related art. In other words, related technologies can be used to determine the power conversion efficiency, which will not be described in detail in this disclosure.

The generating module 820 is configured to generate charging prompt information based on the charging indication information and the charging indication value.

In one embodiment, the charging prompt information may include one or more of the current battery percentage prompt, estimated full time prompt, full charge prompt and stop charging prompt of the battery of the rechargeable device being charged by the mobile power supply, It may also include one or more information of the mobile power supply, such as a reminder of the remaining power, a reminder of the percentage of remaining power, a reminder of insufficient remaining power, and a reminder of stopping charging. In one embodiment, when the mobile power supply is charging multiple rechargeable devices at the same time, the charging prompt information may include a reminder of how many rechargeable devices are being charged by the mobile power supply at the same time, how much power is available in the current remaining power of the mobile power supply A reminder that the device being charged corresponding to the device logo information input by the user is charging, and a reminder that the current remaining power of the mobile power supply can be used to charge the device being charged corresponding to the device logo information input by the user. 1. One or more items in the current remaining power of the mobile power supply, which can be used to charge the device being charged corresponding to the device identification information input by the user, such as the prompt that the power is insufficient. That is, the charging prompt information may include any information related to the battery of the rechargeable device being charged by the mobile power source and information related to the mobile power source.

The notification module 440 is configured to notify the user of charging prompt information.

In the mobile power charging control device of the present disclosure, the calculation module is configured to calculate the charging indication value based on the charging indication information; the generation module is configured to generate charging prompt information based on the charging indication information and the charging indication value, wherein the notification module It is configured to notify the user of the charging prompt information, so that the user can know whether the remaining power of the mobile power supply can fully charge the battery of the rechargeable device, and how much power can be charged. Moreover, the user can monitor whether the rechargeable device he cares about is being charged by the mobile power supply, and grasp the charging prompt information of the rechargeable device being charged on the mobile power supply at any time. Therefore, the mobile power charging control technology disclosed in the present disclosure can help users intuitively grasp the mobile power information of the mobile power supply and the charging-related information of the rechargeable device being charged by the mobile power supply, facilitate the user to arrange charging plans, and scientifically control the rechargeable device battery power, prolong battery life, and improve user experience.

An exemplary implementation of the calculation manner of the calculation module 810 described with reference to FIG. 8 is described below in a specific embodiment.

Specifically, the calculation module 810 is configured to calculate the charging indication value N using the following formula:

$\mathrm{<span\; class="notranslate">\; N</span>}<span\; class="notranslate">\; =</span>\frac{{\mathrm{<span\; class="notranslate">\; \&omega;P</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}\mathrm{<span\; class="notranslate">\; \&alpha;</span>}}{{\mathrm{<span\; class="notranslate">\; m</span>}}_{\mathrm{<span\; class="notranslate">\; T</span>}}}<span\; class="notranslate">\; +</span>\mathrm{<span\; class="notranslate">\; \&beta;</span>}$

Among them, ω is the power conversion efficiency of the mobile power supply, PT is the total capacity of the mobile power supply, α is the remaining power percentage of the mobile power supply, _MT is the total capacity of the _battery of the rechargeable device, and β is the remaining capacity of the battery of the rechargeable device battery percentage.

It can be seen from the above formula that the charging indication value N can be the ratio obtained by dividing the remaining power of the mobile power supply through (power conversion efficiency ω) converted value _{ωP T} α by the total capacity MT of the battery of the rechargeable device plus the rechargeable The sum of the remaining battery percentage values β of the device's battery.

Those skilled in the art can understand that the determination of the charging indication value according to the above method is only an example, and according to the teaching of the present disclosure, other forms of charging indication values can be determined in other ways.

Fig. 9 is a diagram illustrating an application scenario of a mobile power charging control device according to a specific embodiment of the present disclosure.

As shown in Figure 9, the mobile power supply 500 is charging the user's smart phone 100 and smart bracelet 200, the user's tablet computer 300 is not charged by the mobile power supply 500, and the mobile power supply charging control device 400 communicates with the mobile power supply 500 to monitor the mobile power supply 500 charging situation. The mobile power charging control device 400 may have the structure in the embodiment shown in FIG. 4 to FIG. 8 .

It should be noted that, in the scenario shown in FIG. 9 , the mobile power charging control device 400 is also a mobile terminal such as a smart phone, but those skilled in the art can understand that as long as the purpose of this disclosure can be achieved, the mobile power charging control The device 400 can be implemented in various ways, for example, combined with the power bank 500 .

It should be noted that in the scenario shown in FIG. 9, the mobile power supply 500 only charges the smart phone 100 and the smart bracelet 200. However, the mobile power supply 500 is not limited to only charging two rechargeable devices, but can charge one , three or more rechargeable devices.

In the scenario shown in FIG. 9 , the storage module of the mobile power charging control device 400 stores a plurality of device identification information in a one-to-one correspondence with battery information of batteries of a plurality of rechargeable devices. For example, the storage module stores the battery information of the battery of the smart phone 100 in correspondence with the fingerprint of the user's right index finger, stores the battery information of the battery of the smart bracelet 200 in correspondence with the fingerprint of the user's right hand fingerprint, and stores the battery information of the battery of the tablet computer 300 It is stored correspondingly to the fingerprint of the ring finger of the user's right hand. According to the present disclosure, the foregoing fingerprints can be replaced with any one of characters, graphics, and voices.

In one example, the receiving module of the mobile power charging control device 400 receives the device identification information input by the user. For example, the user inputs the fingerprint of the right index finger on the mobile power charging control device 400 (or the dedicated APP of the mobile power charging control device 400 ). In this case, the first judging module of the mobile power charging control device 400 is based on the fingerprints of the user's right index finger, middle finger and ring finger stored in the storage module and the battery information of the batteries of the smart phone 100, smart bracelet 200 and tablet computer 300 According to the corresponding relationship, it is judged that the fingerprint of the index finger of the right hand corresponds to the smart phone 100 being charged by the mobile power supply 500 . When the first judging module judges that the fingerprint of the right index finger received by the receiving module corresponds to the smart phone 100 being charged by the mobile power supply 500 , the acquisition module of the mobile power charging control device 400 obtains from the mobile power supply 500 the fingerprint related to the mobile power supply 500 . And charging instruction information related to the smart phone 100 being charged by the mobile power supply 500 . The notification module of the mobile power supply charging control device 400 notifies the user of the following two items: the fingerprint of the user's right index finger received by the receiving module corresponds to the smart phone 100 being charged by the mobile power supply 500 , and charging instruction information.

In another example, for example, the user inputs the fingerprint of the ring finger of the right hand on the mobile power charging control device 400 (or the dedicated APP of the mobile power charging control device 400 ). When the first judging module judges that the fingerprint of the ring finger of the right hand received by the receiving module does not correspond to the smart phone 100 and the smart bracelet 200 being charged by the mobile power supply 500, the second judging module of the mobile power charging control device 400 judges that the receiving module receives Whether the fingerprint of the ring finger of the right hand obtained corresponds to the tablet computer 300 that is not charged by the mobile power supply 500 . When the second judging module judges that the fingerprint of the ring finger of the right hand received by the receiving module corresponds to the tablet computer 300 not charged by the mobile power supply 500, the notification module notifies the user of the following two items: The tablet computer 300 charged by the mobile power supply 500 is corresponding.

In another example, for example, the user inputs the fingerprint of the left index finger on the mobile power charging control device 400 (or the dedicated APP of the mobile power charging control device 400 ). When the first judging module judges that the fingerprint of the left index finger received by the receiving module does not correspond to the smart phone 100 and the smart bracelet 200 being charged by the mobile power supply 500, and the second judging module judges that the fingerprint of the left index finger received by the receiving module does not correspond to When the tablet computer 300 not charged by the mobile power supply 500 is not corresponding, the notification module notifies the user that there is no rechargeable device corresponding to the fingerprint of the left index finger.

The mobile power charging control device 400 according to the embodiment of the present disclosure has been briefly described above in conjunction with the scene shown in FIG. 9 . The scene shown in FIG. 9 can also be further explained based on the above descriptions with reference to FIGS. 1 to 8 , but for the purpose of saving space, this disclosure will not repeat it here.

According to an embodiment of the present disclosure, a charging control device for a mobile power supply is provided, including:

processor;

memory for storing processor-executable instructions;

where the processor is configured as:

Receive the device identification information input by the user;

Based on the corresponding relationship between the device identification information and the battery information of the battery of the rechargeable device, it is judged whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply;

When the device identification information corresponds to the rechargeable device being charged by the mobile power supply, obtaining charging information related to the mobile power supply and to the rechargeable device being charged by the mobile power supply from the mobile power supply instructions;

Notifying the user that the device identification information corresponds to the rechargeable device being charged by the mobile power source and the charging indication information.

Fig. 10 is a block diagram showing a mobile power charging control device according to an exemplary embodiment of the present disclosure. For example, the mobile power charging control device 1000 can be an application program, or a mobile device, such as a mobile phone, a computer, a digital broadcast terminal, a messaging device, a game console, a tablet device, a medical device, a sweeping robot, a smart refrigerator, a smart Air purifiers, fitness equipment, personal digital assistants, and more.

Referring to Fig. 10, mobile power charging control device 1000 may comprise following one or more components: processing component 1002, memory 1004, power component 1006, multimedia component 1008, audio component 1010, interface 1012 of input/output (I/O), sensor component 1014, and communication component 1016.

The processing component 1002 generally controls the overall operations of the mobile power charging control device 1000, such as operations associated with display, phone calls, data communications, camera operations, and recording operations. The processing component 1002 may include one or more processors 1020 to execute instructions to complete all or part of the steps of the above method. Additionally, processing component 1002 may include one or more modules that facilitate interaction between processing component 1002 and other components. For example, processing component 1002 may include a multimedia module to facilitate interaction between multimedia component 1008 and processing component 1002 .

The memory 1004 is configured to store various types of data to support the operation of the mobile power charging control device 1000 . Examples of such data include instructions for any application or method operating on the mobile power charging control device 1000 , contact data, phonebook data, messages, pictures, videos, and the like. The memory 1004 can be realized by any type of volatile or non-volatile storage device or their combination, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable Programmable Read Only Memory (EPROM), Programmable Read Only Memory (PROM), Read Only Memory (ROM), Magnetic Memory, Flash Memory, Magnetic or Optical Disk.

The power supply component 1006 provides power for various components of the mobile power charging control device 1000 . The power supply component 1006 may include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power to the power bank charging control device 1000 .

The multimedia component 1008 includes a screen providing an output interface between the mobile power charging control device 1000 and the user. In some embodiments, the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes a touch panel, the screen may be implemented as a touch screen to receive input signals from a user. The touch panel includes one or more touch sensors to sense touches, swipes, and gestures on the touch panel. The touch sensor may not only sense a boundary of a touch or swipe action, but also detect duration and pressure associated with the touch or swipe action. In some embodiments, the multimedia component 1008 includes a front camera and/or a rear camera. When the mobile power charging control device 1000 is in an operation mode, such as a shooting mode or a video mode, the front camera and/or the rear camera can receive external multimedia data. Each front camera and rear camera can be a fixed optical lens system or have focal length and optical zoom capability.

The audio component 1010 is configured to output and/or input audio signals. For example, the audio component 1010 includes a microphone (MIC), which is configured to receive external audio signals when the power bank charging control device 1000 is in operation modes, such as calling mode, recording mode and voice recognition mode. Received audio signals may be further stored in memory 1004 or sent via communication component 1016 . In some embodiments, the audio component 1010 also includes a speaker for outputting audio signals.

The I/O interface 1012 provides an interface between the processing component 1002 and a peripheral interface module, which may be a keyboard, a click wheel, a button, and the like. These buttons may include, but are not limited to: a home button, volume buttons, start button, and lock button.

The sensor assembly 1014 includes one or more sensors for providing various aspects of status assessment for the power bank charging control device 1000 . For example, the sensor component 1014 can detect the open/close state of the mobile power charging control device 1000, the relative positioning of the components, for example, the components are the display and the keypad of the mobile power charging control device 1000, and the sensor component 1014 can also detect the mobile power charging control device 1000 Change of position of charging control device 1000 or a component of mobile power charging control device 1000, presence or absence of user contact with mobile power charging control device 1000, mobile power charging control device 1000 orientation or acceleration/deceleration and mobile power charging control device 1000 temperature change. The sensor assembly 1014 may include a proximity sensor configured to detect the presence of nearby objects in the absence of any physical contact. The sensor assembly 1014 may also include an optical sensor, such as a CMOS or CCD image sensor, for use in imaging applications. In some embodiments, the sensor component 1014 may also include an acceleration sensor, a gyroscope sensor, a magnetic sensor, a pressure sensor or a temperature sensor.

The communication component 1016 is configured to facilitate wired or wireless communication between the mobile power charging control device 1000 and other devices. The mobile power charging control device 1000 can access wireless networks based on communication standards, such as WiFi, 2G or 3G, or a combination thereof. In an exemplary embodiment, the communication component 1016 receives broadcast signals or broadcast related information from an external broadcast management system via a broadcast channel. In an exemplary embodiment, the communication component 1016 also includes a near field communication (NFC) module to facilitate short-range communication. For example, the NFC module may be implemented based on Radio Frequency Identification (RFID) technology, Infrared Data Association (IrDA) technology, Ultra Wide Band (UWB) technology, Bluetooth (BT) technology and other technologies.

In an exemplary embodiment, the mobile power charging control device 1000 may be implemented by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs) , a Field Programmable Gate Array (FPGA), a controller, a microcontroller, a microprocessor or other electronic components for implementing the above method.

In an exemplary embodiment, there is also provided a non-transitory computer-readable storage medium including instructions, such as the memory 1004 including instructions, which can be executed by the processor 1020 of the mobile power charging control device 1000 to complete the above method. For example, the non-transitory computer readable storage medium may be ROM, random access memory (RAM), CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like.

A non-transitory computer-readable storage medium, when the instructions in the storage medium are executed by the processor of the mobile terminal, the mobile terminal can execute a mobile power charging control method, the method comprising:

Receive the device identification information input by the user;

Based on the corresponding relationship between the device identification information and the battery information of the battery of the rechargeable device, it is judged whether the device identification information corresponds to the rechargeable device being charged by the mobile power supply;

When the device identification information corresponds to the rechargeable device being charged by the mobile power supply, obtaining charging information related to the mobile power supply and to the rechargeable device being charged by the mobile power supply from the mobile power supply instructions;

Notifying the user that the device identification information corresponds to the rechargeable device being charged by the mobile power source and the charging indication information.

Other embodiments of the disclosure will be readily apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any modification, use or adaptation of the present disclosure, and these modifications, uses or adaptations follow the general principles of the present disclosure and include common knowledge or conventional technical means in the technical field not disclosed in the present disclosure . The specification and examples are to be considered exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It should be understood that the present disclosure is not limited to the precise constructions which have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (25)

1. a portable power source charge control method, it is characterised in that including:

Receive the device flag information of user's input；

Corresponding relation based on described device flag information Yu the battery information of the battery of rechargeable devices, it is judged that described equipment mark Will information is the most corresponding with the rechargeable devices charged by portable power source；

When described device flag information is corresponding with the described rechargeable devices charged by portable power source, from described movement Power supply obtains relevant to described portable power source and relevant with the described rechargeable devices charged by portable power source charging and refers to Show information；

The device flag information described in described user that notifies is corresponding with the rechargeable devices charged by portable power source and institute State charging instruction information.

Method the most according to claim 1, it is characterised in that described method also includes:

The battery information of multiple device flag information with the battery of multiple rechargeable devices is stored correspondingly.

Method the most according to claim 2, it is characterised in that described method also includes:

When judge described device flag information with the described rechargeable devices charged by portable power source not to time corresponding Described device flag information is the most relative with the rechargeable devices of the un-shifted power source charges in the plurality of rechargeable devices Should；

When judging the chargeable of described device flag information and the un-shifted power source charges in the plurality of rechargeable devices When equipment is corresponding, notify device flag information described in described user and the un-shifted power supply in the plurality of rechargeable devices The rechargeable devices of charging is corresponding.

Method the most according to claim 3, it is characterised in that described method also includes:

When judging the chargeable of described device flag information and the un-shifted power source charges in the plurality of rechargeable devices Notify when equipment is not to correspondence that described user does not exist the rechargeable devices corresponding with described device flag information.

Method the most according to claim 3, it is characterised in that described method also includes:

When judging the chargeable of described device flag information and the un-shifted power source charges in the plurality of rechargeable devices When equipment is corresponding, obtain the charging instruction information relevant to described portable power source from described portable power source；

Based on described charging instruction information and the battery information of the battery of the rechargeable devices of described un-shifted power source charges, meter Calculate the dump energy of described portable power source and the ratio of the total capacity of the battery of the rechargeable devices of described un-shifted power source charges Value；

Notify un-shifted power source charges in device flag information described in described user and the plurality of rechargeable devices can Corresponding and the described ratio of charger.

Method the most according to claim 1, it is characterised in that described device flag information include fingerprint, character, figure and At least one in voice.

Method the most according to claim 1, it is characterised in that described battery information includes the total capacity of described battery, fills Piezoelectric voltage and charging current.

Method the most according to claim 1, it is characterised in that described charging instruction information includes the total of described portable power source The dump energy percentage ratio of capacity, dump energy percentage ratio and electricity conversion efficiency and described battery.

Method the most according to claim 1, it is characterised in that described method also includes:

Charging indicated value is calculated based on described charging instruction information；

Charge prompting information is generated based on described charging instruction information and described charging indicated value；

Described charge prompting information is notified described user.

Method the most according to claim 9, it is characterised in that described based on described charging instruction information calculate charging refer to Indicating value, including:

Employing following formula described charging indicated value N of calculating:

$N=\frac{{\mathrm{\&omega;P}}_T\mathrm{\&alpha;}}{M_T}+\mathrm{\&beta;}$

Wherein, ω is the electricity conversion efficiency of described portable power source, P_TFor the total capacity of described portable power source, α is described mobile electricity The dump energy percentage ratio in source, M_TFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices Dump energy percentage ratio.

11. methods according to claim 1, it is characterised in that described charging instruction information includes described portable power source meter The charging indicated value calculated.

12. methods stated according to claim 11, it is characterised in that described portable power source uses following formula to calculate described charging instruction Value N:

$N=\frac{{\mathrm{\&omega;P}}_T\mathrm{\&alpha;}}{M_T}+\mathrm{\&beta;}$

Wherein, ω is the electricity conversion efficiency of described portable power source, P_TFor the total capacity of described portable power source, α is described mobile electricity The dump energy percentage ratio in source, M_TFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices Dump energy percentage ratio.

13. 1 kinds of portable power source battery charge controllers, it is characterised in that including:

Receiver module, is configured to receive the device flag information of user's input；

First judge module, it is based on described device flag information and the battery information of the battery of rechargeable devices right to be configured to Should be related to, it is judged that described device flag information is the most corresponding with the rechargeable devices charged by portable power source；

Acquisition module, is configured as described first judge module and judges that described device flag information is moved with described When the rechargeable devices of power source charges is corresponding, from described portable power source obtain relevant to described portable power source and with described The charging instruction information that the rechargeable devices charged by portable power source is relevant；

Notification module, be configured to the device flag information described in described user that notifies with by portable power source charge chargeable Equipment corresponding and described charging instruction information.

14. devices according to claim 13, it is characterised in that described device also includes:

Memory module, is configured to the battery information one a pair of multiple device flag information and the battery of multiple rechargeable devices Should ground storage.

15. devices according to claim 14, it is characterised in that described device also includes:

Second judge module, be configured as described first judge module judge described device flag information with described by The rechargeable devices of portable power source charging not to device flag information described during correspondence whether with the plurality of rechargeable devices In the rechargeable devices of un-shifted power source charges corresponding,

Wherein, described notification module be configured as described second judge module judge described device flag information with described many When the rechargeable devices of the un-shifted power source charges in individual rechargeable devices is corresponding, notify device flag described in described user Information is corresponding with the rechargeable devices of the un-shifted power source charges in the plurality of rechargeable devices.

16. devices according to claim 15, it is characterised in that described notification module is configured to:

When described second judge module judges un-shifted with the plurality of rechargeable devices of described device flag information Notify when the rechargeable devices of power source charges is not to correspondence that described user does not exist corresponding with described device flag information chargeable Equipment.

17. devices according to claim 15, it is characterised in that described device also includes computing module, wherein:

Described acquisition module be configured as described second judge module judge described device flag information with the plurality of can When the rechargeable devices of the un-shifted power source charges in charger is corresponding, obtain and described movement from described portable power source The charging instruction information that power supply is relevant；

Described computing module is configured to set based on described charging instruction information and described the chargeable of un-shifted power source charges The battery information of standby battery, the dump energy calculating described portable power source sets with described the chargeable of un-shifted power source charges The ratio of the total capacity of standby battery；

Described notification module is configured in the device flag information described in described user that notifies and the plurality of rechargeable devices Corresponding and the described ratio of the rechargeable devices of un-shifted power source charges.

18. devices according to claim 13, it is characterised in that described device flag information includes fingerprint, character, figure With at least one in voice.

19. devices according to claim 13, it is characterised in that described battery information include described battery total capacity, Charging voltage and charging current.

20. devices according to claim 13, it is characterised in that described charging instruction information includes described portable power source The dump energy percentage ratio of total capacity, dump energy percentage ratio and electricity conversion efficiency and described battery.

21. devices according to claim 13, it is characterised in that described device also includes:

Computing module, is configured to calculate charging indicated value based on described charging instruction information；

Generation module, is configured to generate charge prompting information based on described charging instruction information and described charging indicated value,

Wherein, described notification module is configured to described charge prompting information is notified described user.

22. devices according to claim 21, it is characterised in that described first calculating sub module is configured to:

Employing following formula described charging indicated value N of calculating:

$N=\frac{{\mathrm{\&omega;P}}_T\mathrm{\&alpha;}}{M_T}+\mathrm{\&beta;}$

Wherein, ω is the electricity conversion efficiency of described portable power source, P_TFor the total capacity of described portable power source, α is described mobile electricity The dump energy percentage ratio in source, M_TFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices Dump energy percentage ratio.

23. devices according to claim 13, it is characterised in that described charging instruction information includes described portable power source meter The charging indicated value calculated.

24. devices stated according to claim 23, it is characterised in that described portable power source uses following formula to calculate described charging instruction Value N:

$N=\frac{{\mathrm{\&omega;P}}_T\mathrm{\&alpha;}}{M_T}+\mathrm{\&beta;}$

Wherein, ω is the electricity conversion efficiency of described portable power source, P_TFor the total capacity of described portable power source, α is described mobile electricity The dump energy percentage ratio in source, M_TFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices Dump energy percentage ratio.

25. 1 kinds of portable power source battery charge controllers, it is characterised in that including:

Processor；

For storing the memorizer of processor executable；

Wherein, described processor is configured to:

Receive the device flag information of user's input；

Corresponding relation based on described device flag information Yu the battery information of the battery of rechargeable devices, it is judged that described equipment mark Will information is the most corresponding with the rechargeable devices charged by portable power source；

When described device flag information is corresponding with the described rechargeable devices charged by portable power source, from described movement Power supply obtains relevant to described portable power source and relevant with the described rechargeable devices charged by portable power source charging and refers to Show information；

The device flag information described in described user that notifies is corresponding with the rechargeable devices charged by portable power source and institute State charging instruction information.