CN117220391A - Power supply management method, system and storage medium for smart watch during charging - Google Patents

Abstract

The invention provides a power supply management method, system and storage medium for a smart watch when charging, obtains charging connection status information, and determines whether to enter the charging connection state based on the charging connection status information; if so, enters the first power supply mode; obtains the first Voltage information, determine whether the first voltage information exceeds the preset first voltage threshold; if so, obtain the peripheral status information, and determine whether it is the peripheral connection status according to the peripheral status information; if so, according to the preset communication instructions, Obtain the second voltage threshold; determine whether the first voltage information exceeds the second voltage threshold; if so, enter the second power supply mode. Through power supply management, the present invention ensures the safety and efficiency of smart watch charging while improving the measurement stability of peripheral equipment, thereby improving the user's experience.

Description

A power supply management method, system and storage medium for smart watches when charging

Technical field

The present invention relates to the field of charging management, and more specifically, to a power supply management method, system and storage medium when charging a smart watch.

Background technique

With the development of science and technology, portable devices are becoming more and more miniaturized and lightweight. The power supply of portable devices is restricted by its size, which affects its power supply. Currently, in order to expand the functions of smart watches, peripheral devices can be driven through communication interfaces to measure human body status parameters such as blood oxygen, blood pressure, and body temperature. Smart watches usually use lithium batteries as their energy supply. Independently powered lithium batteries have the characteristics of stable voltage and are not affected by the mains power, which can better ensure the stability of the power supply to peripheral devices.

However, when the lithium battery of a smart watch is low on power and is connected to a charging device, the charging device usually replenishes the battery and also provides power supply to the smart watch. Due to the instability of the mains power, the measurement stability of peripheral equipment will also be affected. Therefore, there is an urgent need for a charging management technology for smart watches that can improve the stability of peripheral measurement during charging.

Contents of the invention

In view of the above problems, the purpose of the present invention is to provide a power supply management method, system and storage medium for a smart watch when charging, which can, when the smart watch is in a charging state, based on the voltage information of the battery and the voltage information required by the peripheral device, Realize automatic switching of power supply mode. Through power supply management, the present invention ensures the safety and efficiency of smart watch charging while improving the measurement stability of peripheral equipment, thereby improving the user's experience.

A first aspect of the present invention provides a power supply management method when charging a smart watch. The method includes:

Obtain the charging connection status information, and determine whether to enter the charging connection state based on the charging connection status information;

If yes, enter the first power supply mode;

Obtain the first voltage information and determine whether the first voltage information exceeds a preset first voltage threshold;

If so, obtain the peripheral device status information, and determine whether it is the peripheral device connection status based on the peripheral device status information;

If so, obtain the second voltage threshold according to the preset communication command;

Determine whether the first voltage information exceeds the second voltage threshold;

If so, enter the second power supply mode.

This plan also includes:

When entering the second power supply mode and being in the peripheral connection state;

Determine whether the first voltage information is lower than the preset first voltage threshold;

If so, enter the first power supply mode;

If not, determine whether the first voltage information is lower than the second voltage threshold;

If yes, enter the first power supply mode.

In this solution, the second voltage threshold is obtained according to the preset communication instructions, specifically:

Send the first command information and obtain the first feedback information fed back by the peripheral device;

According to the first feedback information, first encoded information is obtained;

According to the first encoding information, determine whether there is first power supply information of the peripheral device corresponding to the first encoding information;

If so, set the second voltage threshold according to the first power supply information;

If not, the second voltage threshold is obtained according to the second communication command.

In this solution, the second voltage threshold is obtained according to the second communication instruction, specifically as follows:

Send the second command information and obtain the second feedback information fed back by the peripheral device;

According to the second feedback information, obtain the first electrical parameter information of the peripheral device;

According to the first electrical parameter information, a preset voltage supply and demand table is searched to obtain the second voltage threshold.

This plan also includes:

When in the second power supply mode, obtain the temperature information of the battery;

Determine whether the temperature information exceeds a preset temperature threshold;

If yes, it is set to enter the first power supply mode.

This plan also includes:

Send the third command information and obtain the third feedback information fed back by the peripheral device;

According to the third feedback information, the first period information is obtained;

Determine whether the first time information in the first period information exceeds a preset first time threshold;

If so, the power supply mode is repeatedly switched according to the first period information.

A second aspect of the present invention provides a power supply management system for charging a smart watch, which includes a power supply management method program for charging a smart watch. When the power supply management method program for charging a smart watch is executed by the processor, the following steps are implemented: :

Obtain the charging connection status information, and determine whether to enter the charging connection state based on the charging connection status information;

If yes, enter the first power supply mode;

Obtain the first voltage information and determine whether the first voltage information exceeds a preset first voltage threshold;

If so, obtain the peripheral device status information, and determine whether it is the peripheral device connection status based on the peripheral device status information;

If so, obtain the second voltage threshold according to the preset communication command;

Determine whether the first voltage information exceeds the second voltage threshold;

If so, enter the second power supply mode.

This plan also includes:

When entering the second power supply mode and being in the peripheral connection state;

Determine whether the first voltage information is lower than the preset first voltage threshold;

If so, enter the first power supply mode;

If not, determine whether the first voltage information is lower than the second voltage threshold;

If yes, enter the first power supply mode.

In this solution, the second voltage threshold is obtained according to the preset communication instructions, specifically:

Send the first command information and obtain the first feedback information fed back by the peripheral device;

According to the first feedback information, first encoded information is obtained;

According to the first encoding information, determine whether there is first power supply information of the peripheral device corresponding to the first encoding information;

If so, set the second voltage threshold according to the first power supply information;

If not, the second voltage threshold is obtained according to the second communication command.

A third aspect of the present invention provides a computer-readable storage medium. The computer-readable storage medium includes a power supply management method program when charging a smart watch. The power supply management method program when charging a smart watch is processed by a processor. When executed, the steps of the power supply management method during charging of the smart watch as described in any of the above are implemented.

The invention provides a power supply management method, system and storage medium for a smart watch when charging, obtains charging connection status information, and determines whether to enter the charging connection state according to the charging connection status information; if so, enters the first power supply mode; obtains the first Voltage information, determine whether the first voltage information exceeds the preset first voltage threshold; if so, obtain the peripheral status information, and determine whether it is the peripheral connection status according to the peripheral status information; if so, according to the preset communication command, Obtain the second voltage threshold; determine whether the first voltage information exceeds the second voltage threshold; if so, enter the second power supply mode. Through power supply management, the present invention ensures the safety and efficiency of smart watch charging while improving the measurement stability of peripheral equipment, thereby improving the user's experience.

Description of drawings

In order to explain the technical solutions of the embodiments of the present invention more clearly, the drawings required to be used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of the present invention and therefore do not should be viewed as a limitation of scope.

Figure 1 shows a flow chart of a power supply management method during charging of a smart watch according to the present invention;

Figure 2 shows a flow chart of power supply mode switching provided by an embodiment of the present invention;

Figure 3 shows a flow chart for obtaining the second voltage threshold provided by an embodiment of the present invention;

Figure 4 shows a block diagram of a power supply management system during charging of a smart watch according to the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without making creative efforts fall within the scope of protection of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used in the embodiments of the present invention have the same meanings commonly understood by one of ordinary skill in the art to which this invention belongs. It should also be understood that terms such as those defined in ordinary dictionaries should be interpreted to have meanings consistent with their meanings in the context of the relevant technology and should not be interpreted in an idealized or extremely formalized sense, unless the present invention The embodiments are explicitly defined this way.

The "first", "second" and similar words used in the embodiments of the present invention do not indicate any order, quantity or importance, but are only used to distinguish different components. Similar words such as "a", "an" or "the" do not imply a quantitative limitation but rather indicate the presence of at least one. Likewise, words such as "includes" or "includes" mean that the elements or things listed before the word include the elements or things listed after the word and their equivalents, without excluding other elements or things. Words such as "connected" or "connected" are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. The steps before or after the method of the embodiment of the present invention are not necessarily performed in exact order. Instead, the various steps can be processed in reverse order or simultaneously. At the same time, you can add other operations to these processes, or remove a step or steps from these processes.

In addition, each functional module in various embodiments of the present invention can be integrated together to form an independent part, each module can exist alone, or two or more modules can be integrated to form an independent part.

Figure 1 shows a flow chart of a power supply management method during charging of a smart watch according to the present invention.

As shown in Figure 1, the present invention discloses a power supply management method when charging a smart watch. The method includes:

S102, obtain the charging connection status information, and determine whether to enter the charging connection state based on the charging connection status information;

S104, if yes, enter the first power supply mode;

S106, obtain the first voltage information and determine whether the first voltage information exceeds the preset first voltage threshold;

S108, if so, obtain the peripheral device status information, and determine whether it is the peripheral device connection status based on the peripheral device status information;

S110, if yes, obtain the second voltage threshold according to the preset communication command;

S112, determine whether the first voltage information exceeds the second voltage threshold;

S114, if yes, enter the second power supply mode.

It should be noted that, first of all, the charging connection status information indicates the connection status of the charging interface of the smart watch, including the charging connection status, which indicates that there is a charging device that provides power supplement to the smart watch through the charging interface, and the non-charging connection status, which indicates that there is no charging. The device is connected to the charging port of the smart watch. The first power supply mode refers to providing power supply to the circuit system of the smart watch and connected peripheral devices through the charger, which can be called the charger power supply mode. In this mode, the charger provides power to the circuit system and peripheral devices. supplies, and provides charging services for batteries. When the charger is connected to the charging interface of the smart watch, that is, when it is in the charging connection state, it is set to enter the first power supply mode through the electronic circuit switch.

Secondly, the first voltage information is the voltage value between the positive and negative terminals of the battery of the smart watch, which can be called the battery voltage value. After collecting the battery voltage through the electronic circuit, it is determined whether the battery voltage value exceeds the preset first voltage threshold. For example, in some applications, when the battery voltage is lower than 3.0 volts, it cannot meet the power supply requirements for the normal operation of the smart watch circuit system. Then 3.0 volts is the preset first voltage threshold, which is based on the smart watch circuit. set by the system.

Then, if the battery voltage exceeds the preset first voltage threshold, it means that the battery voltage can meet the power supply requirements of the smart watch circuit system, and then the peripheral status information of the peripheral interface is obtained. The peripheral interface is the interface set up by the smart watch to drive and communicate with peripheral devices. Generally, TYPE-C interface, USB interface, etc. can be used. The peripheral status information indicates the connection status of the peripheral interface of the smart watch, including the peripheral connection status, which indicates that the peripheral device is in a working state and communicates with the smart watch, and the non-peripheral connection status, which indicates that it is not in a working status. peripheral device communicates with the smart watch.

Finally, when in the peripheral device connection state, it communicates with the peripheral device through preset communication instructions, and analyzes and calculates the second voltage threshold according to the communication information. The second voltage threshold is the lowest voltage value that the battery needs to provide to ensure the normal operation of the peripheral device when the battery is used for power supply; that is, when the battery voltage exceeds the second voltage threshold, the battery provides The power supply capability can ensure the normal operation of the smart watch's circuit system and peripheral equipment. At this time, the electronic circuit switch is used to set the second power supply mode. The second power supply mode refers to using the battery to provide power supply to the circuit system and connected peripheral devices of the smart watch, which can be called the battery power supply mode. In this mode, the battery provides power supply to the circuit system and peripheral devices.

In addition, in practical applications, the charger converts the voltage value provided by the 220-volt mains or other power supply into a voltage value that can provide power for the smart watch. Usually, the mains power or other power supply is subject to external interference, resulting in The power supply provided by the charger to the smart watch is unstable, which will affect the normal operation of the smart watch, especially the measurement accuracy of peripheral devices. In comparison, the battery power supply of smart watches has the characteristics of stable power supply, which can better meet the power needs of smart watches and peripherals and ensure the accuracy of peripheral device measurements.

FIG. 2 shows a flow chart of power supply mode switching provided by an embodiment of the present invention.

According to the embodiment of the present invention, as shown in Figure 2, it also includes:

S202, when entering the second power supply mode and being in the peripheral connection state;

S204, determine whether the first voltage information is lower than the preset first voltage threshold;

S206, if yes, enter the first power supply mode;

S208, if not, determine whether the first voltage information is lower than the second voltage threshold;

S210, if yes, enter the first power supply mode.

It should be noted that the second power supply mode refers to providing power supply to the circuit system of the smart watch and connected peripheral devices through the battery, which can be called the battery power supply mode; the peripheral connection status indicates the presence of peripheral devices. The device is working and communicating with the smartwatch. When the battery power supply mode is in and there is a communication connection between a peripheral device and a smart device, it is determined whether the first voltage information is lower than the preset first voltage threshold; wherein the first voltage information is the battery of the smart watch The voltage value between the positive and negative terminals is the battery voltage value. If the battery voltage value is lower than the preset first voltage threshold, it means that the battery power supply cannot meet the power supply demand for normal operation of the circuit system of the smart watch, and the power supply mode is switched to the first power supply mode, that is, the charger power supply mode. If the battery voltage value is not lower than the preset first voltage threshold, it means that the battery voltage can meet the power supply requirements of the smart watch circuit system, then it is determined whether the battery voltage value is lower than the second voltage threshold; wherein, the second The voltage threshold is the lowest voltage value that the battery needs to provide to ensure the normal operation of peripheral devices when using battery power. When the battery voltage value is lower than the second voltage threshold, it means that the power supply capacity provided by the battery does not meet the normal working requirements of the smart watch's circuit system and peripheral devices, and the power supply mode is switched to the first power supply mode, that is, the charger supplies power. model.

Figure 3 shows a flow chart for obtaining the second voltage threshold provided by an embodiment of the present invention.

According to an embodiment of the present invention, as shown in Figure 3, the second voltage threshold is obtained according to the preset communication instructions, specifically as follows:

S302, send the first command information and obtain the first feedback information fed back by the peripheral device;

S304. Obtain the first encoding information according to the first feedback information;

S306. According to the first encoding information, determine whether there is first power supply information of the peripheral device corresponding to the first encoding information;

S308, if yes, set the second voltage threshold according to the first power supply information;

S310, if not, obtain the second voltage threshold according to the second communication command.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface, sends the first instruction information to the peripheral device, and the peripheral device returns the first feedback information according to the first instruction information and its own encoding information. The first coding information of the peripheral device is obtained according to the first feedback information; where the first instruction information is an instruction to identify the peripheral device, and the peripheral device is usually distinguished by the peripheral coding. For example, the code 0x11 represents the No. 1 blood oxygen device, 0x21 represents blood pressure device No. 1; the first feedback command contains the peripheral code of the peripheral device; the first coded information is the coded information of the peripheral connected to the smart watch. Then, query the system according to the first encoding information whether the first power supply information of the peripheral device corresponding to the first encoding information is stored; wherein the first power supply information is the battery voltage value required for the peripheral device to operate normally. The first power supply information of commonly used peripheral devices will be stored in the system to facilitate quick search and judgment. If the first power supply information exists, the first power supply information is used to set the second voltage threshold; if the first power supply information does not exist, the second communication command is sent to the peripheral device and the second voltage threshold is obtained through analysis. Wherein, the second voltage threshold is the lowest voltage value that the battery needs to provide to ensure normal operation of the peripheral device when the battery is used for power supply.

According to an embodiment of the present invention, the second voltage threshold is obtained according to the second communication instruction, specifically:

Send the second command information and obtain the second feedback information fed back by the peripheral device;

According to the second feedback information, obtain the first electrical parameter information of the peripheral device;

According to the first electrical parameter information, a preset voltage supply and demand table is searched to obtain the second voltage threshold.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface and sends the second instruction information to the peripheral device, and the peripheral device returns the second feedback information according to the second instruction information and the electrical parameters during operation. The first electrical parameter information is the electrical parameter when the peripheral device is working, including but not limited to voltage value, current value, load impedance, etc. According to the first electrical parameters of the peripheral device, the second voltage threshold can be obtained by querying the voltage supply and demand table preset in the system. Wherein, the second voltage threshold is the lowest voltage value that the battery needs to provide to ensure normal operation of the peripheral device when the battery is used for power supply. For example, when the voltage value in the first electrical parameter information is 3.3 volts and the current value is 100 mA, the corresponding required battery voltage value is 3.5 volts. The voltage supply and demand table is pre-stored in the system according to the electronic characteristics of the circuit system.

According to the embodiment of the present invention, it also includes:

When in the second power supply mode, obtain the temperature information of the battery;

Determine whether the temperature information exceeds a preset temperature threshold;

If yes, it is set to enter the first power supply mode.

It should be noted that the smart watch is equipped with a sensor for detecting temperature, which is used to detect the temperature information of the battery. When in the battery power supply mode, if the temperature information of the battery exceeds the preset temperature threshold, it is necessary to switch to the first power supply mode to prevent the temperature from continuing to rise. After switching to the first power supply mode, that is, the charger power supply mode, the battery does not need to provide power for the circuit system and peripheral devices of the smart watch, effectively reducing the work load, thus slowing down the temperature rise of the battery and even preventing the temperature from rising.

According to the embodiment of the present invention, it also includes:

Send the third command information and obtain the third feedback information fed back by the peripheral device;

According to the third feedback information, the first period information is obtained;

Determine whether the first time information in the first period information exceeds a preset first time threshold;

If so, the power supply mode is repeatedly switched according to the first period information.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface and sends the third instruction information to the peripheral device, and the peripheral device returns the third feedback information according to the third instruction information and the working time period. The first period information is the time period when some peripheral devices perform detection tasks, including detection duration and interval duration; the first time information is the interval duration. For example, if the detection time of the blood oxygen device is 100 milliseconds and the interval is 0 seconds, the time period is 100 milliseconds; if the detection time of the heart rate device is 10 seconds and the interval is 50 seconds, the time period is 60 seconds. When the first time period exceeds the preset first time threshold, the power supply mode may be switched to reduce the duration of the battery power supply mode. When in the detection duration stage, set to battery power supply mode to provide stable power supply for peripheral devices to ensure the stability of detection; when in the interval duration stage, set to charger power supply mode, at which time the peripheral module does not In the detection state, the requirements for power supply stability are not high, and the battery is only in the charging state, which is beneficial to improving the charging speed and protecting the battery life.

It is worth mentioning that it also includes:

When in the peripheral connection state and the first power supply mode, obtain the second voltage information;

Determine whether the second voltage information is within a preset third voltage threshold range;

If so, initialize the first duration information;

If not, update the first duration information according to the collection cycle of the second voltage;

Determine whether the first duration information exceeds a preset first duration threshold;

If yes, the first prompt information is sent to the terminal.

It should be noted that when the charger is in power supply mode and there is a peripheral device performing a measurement task, the power supply voltage provided by the charger, that is, the charger voltage, is collected according to a preset time period, and is recorded as the second voltage information. The first duration information is used to record the duration during which the charger voltage exceeds the preset range. Determine whether the charger voltage is within the preset third voltage threshold range; if so, initialize the first duration information; if not, update the first duration information according to the collection cycle, for example, taking 100 milliseconds as the charging voltage collection cycle, A duration message is incremented by 100 milliseconds. When the first duration information exceeds the preset first duration threshold, it means that the voltage stability of the charger does not meet the measurement requirements of the peripheral device, and the first prompt information is sent to the terminal to prompt the user for the peripheral device. A situation of job instability.

It is worth mentioning that it also includes:

Obtain the first voltage information and determine whether the first voltage information exceeds a preset third voltage threshold;

If so, enter the trickle charging mode and set to the second power supply mode.

It should be noted that the first voltage information is a battery voltage value, and it is determined whether the battery voltage value is higher than a preset third voltage threshold. If so, it means that the battery is nearly full and can be set to trickle charging mode, which is a low-power charging mode, to prevent the battery from being overcharged and reducing battery life. At this time, since the battery power is sufficient to meet the working needs of the smart watch and peripherals, it can be switched to battery power mode.

Figure 4 shows a block diagram of a power supply management system during charging of a smart watch according to the present invention.

As shown in Figure 4, the present invention discloses a power supply management system 4 for charging a smart watch, which includes a memory 41 and a processor 42. The memory includes a power supply management method program for charging the smart watch. When the power supply management method program is executed by the processor, the following steps are implemented:

Obtain the charging connection status information, and determine whether to enter the charging connection state based on the charging connection status information;

If yes, enter the first power supply mode;

Obtain the first voltage information and determine whether the first voltage information exceeds a preset first voltage threshold;

If so, obtain the peripheral device status information, and determine whether it is the peripheral device connection status based on the peripheral device status information;

If so, obtain the second voltage threshold according to the preset communication command;

Determine whether the first voltage information exceeds the second voltage threshold;

If so, enter the second power supply mode.

It should be noted that, first of all, the charging connection status information indicates the connection status of the charging interface of the smart watch, including the charging connection status, which indicates that there is a charging device that provides power supplement to the smart watch through the charging interface, and the non-charging connection status, which indicates that there is no charging. The device is connected to the charging port of the smart watch. The first power supply mode refers to providing power supply to the circuit system of the smart watch and connected peripheral devices through the charger, which can be called the charger power supply mode. In this mode, the charger provides power to the circuit system and peripheral devices. supplies, and provides charging services for batteries. When the charger is connected to the charging interface of the smart watch, that is, when it is in the charging connection state, it is set to enter the first power supply mode through the electronic circuit switch.

Secondly, the first voltage information is the voltage value between the positive and negative terminals of the battery of the smart watch, which can be called the battery voltage value. After collecting the battery voltage through the electronic circuit, it is determined whether the battery voltage value exceeds the preset first voltage threshold. For example, in some applications, when the battery voltage is lower than 3.0 volts, it cannot meet the power supply requirements for the normal operation of the smart watch circuit system. Then 3.0 volts is the preset first voltage threshold, which is based on the smart watch circuit. set by the system.

Then, if the battery voltage exceeds the preset first voltage threshold, it means that the battery voltage can meet the power supply requirements of the smart watch circuit system, and then the peripheral status information of the peripheral interface is obtained. The peripheral interface is the interface set up by the smart watch to drive and communicate with peripheral devices. Generally, TYPE-C interface, USB interface, etc. can be used. The peripheral status information indicates the connection status of the peripheral interface of the smart watch, including the peripheral connection status, which indicates that the peripheral device is in a working state and communicates with the smart watch, and the non-peripheral connection status, which indicates that it is not in a working status. peripheral device communicates with the smart watch.

Finally, when in the peripheral device connection state, it communicates with the peripheral device through preset communication instructions, and analyzes and calculates the second voltage threshold according to the communication information. The second voltage threshold is the lowest voltage value that the battery needs to provide to ensure the normal operation of the peripheral device when the battery is used for power supply; that is, when the battery voltage exceeds the second voltage threshold, the battery provides The power supply capability can ensure the normal operation of the smart watch's circuit system and peripheral equipment. At this time, the electronic circuit switch is used to set the second power supply mode. The second power supply mode refers to using the battery to provide power supply to the circuit system and connected peripheral devices of the smart watch, which can be called the battery power supply mode. In this mode, the battery provides power supply to the circuit system and peripheral devices.

In addition, in practical applications, the charger converts the voltage value provided by the 220-volt mains or other power supply into a voltage value that can provide power for the smart watch. Usually, the mains power or other power supply is subject to external interference, resulting in The power supply provided by the charger to the smart watch is unstable, which will affect the normal operation of the smart watch, especially the measurement accuracy of peripheral devices. In comparison, the battery power supply of smart watches has the characteristics of stable power supply, which can better meet the power needs of smart watches and peripherals and ensure the accuracy of peripheral device measurements.

According to the embodiment of the present invention, it also includes:

When entering the second power supply mode and being in the peripheral connection state;

Determine whether the first voltage information is lower than the preset first voltage threshold;

If so, enter the first power supply mode;

If not, determine whether the first voltage information is lower than the second voltage threshold;

If yes, enter the first power supply mode.

It should be noted that the second power supply mode refers to providing power supply to the circuit system of the smart watch and connected peripheral devices through the battery, which can be called the battery power supply mode; the peripheral connection status indicates the presence of peripheral devices. The device is working and communicating with the smartwatch. When it is in the battery power supply mode and there is a communication connection between a peripheral device and a smart device, it is determined whether the first voltage information is lower than the preset first voltage threshold; wherein the first voltage information is the battery of the smart watch The voltage value between the positive and negative terminals is the battery voltage value. If the battery voltage value is lower than the preset first voltage threshold, it means that the battery power supply cannot meet the power supply demand for normal operation of the circuit system of the smart watch, and the power supply mode is switched to the first power supply mode, that is, the charger power supply mode. If the battery voltage value is not lower than the preset first voltage threshold, it means that the battery voltage can meet the power supply requirements of the smart watch circuit system, then it is determined whether the battery voltage value is lower than the second voltage threshold; wherein, the second The voltage threshold is the lowest voltage value that the battery needs to provide to ensure the normal operation of peripheral devices when using battery power. When the battery voltage value is lower than the second voltage threshold, it means that the power supply capacity provided by the battery does not meet the normal working requirements of the smart watch's circuit system and peripheral devices, and the power supply mode is switched to the first power supply mode, that is, the charger supplies power. model.

According to an embodiment of the present invention, the second voltage threshold is obtained according to the preset communication instruction, specifically:

Send the first command information and obtain the first feedback information fed back by the peripheral device;

According to the first feedback information, first encoded information is obtained;

According to the first encoding information, determine whether there is first power supply information of the peripheral device corresponding to the first encoding information;

If so, set the second voltage threshold according to the first power supply information;

If not, the second voltage threshold is obtained according to the second communication command.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface, sends the first instruction information to the peripheral device, and the peripheral device returns the first feedback information according to the first instruction information and its own encoding information. The first coding information of the peripheral device is obtained according to the first feedback information; where the first instruction information is an instruction to identify the peripheral device, and the peripheral device is usually distinguished by the peripheral coding. For example, the code 0x11 represents the No. 1 blood oxygen device, 0x21 represents blood pressure device No. 1; the first feedback command contains the peripheral code of the peripheral device; the first coded information is the coded information of the peripheral connected to the smart watch. Then, query the system according to the first encoding information whether the first power supply information of the peripheral device corresponding to the first encoding information is stored; wherein the first power supply information is the battery voltage value required for the peripheral device to operate normally. The first power supply information of commonly used peripheral devices will be stored in the system to facilitate quick search and judgment. If the first power supply information exists, the first power supply information is used to set the second voltage threshold; if the first power supply information does not exist, the second communication command is sent to the peripheral device and the second voltage threshold is obtained through analysis. Wherein, the second voltage threshold is the lowest voltage value that the battery needs to provide to ensure normal operation of the peripheral device when the battery is used for power supply.

According to an embodiment of the present invention, the second voltage threshold is obtained according to the second communication instruction, specifically:

Send the second command information and obtain the second feedback information fed back by the peripheral device;

According to the second feedback information, obtain the first electrical parameter information of the peripheral device;

According to the first electrical parameter information, a preset voltage supply and demand table is searched to obtain the second voltage threshold.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface and sends the second instruction information to the peripheral device, and the peripheral device returns the second feedback information according to the second instruction information and the electrical parameters during operation. The first electrical parameter information is the electrical parameter when the peripheral device is working, including but not limited to voltage value, current value, load impedance, etc. According to the first electrical parameters of the peripheral device, the second voltage threshold can be obtained by querying the voltage supply and demand table preset in the system. Wherein, the second voltage threshold is the lowest voltage value that the battery needs to provide to ensure normal operation of the peripheral device when the battery is used for power supply. For example, when the voltage value in the first electrical parameter information is 3.3 volts and the current value is 100 mA, the corresponding required battery voltage value is 3.5 volts. The voltage supply and demand table is pre-stored in the system according to the electronic characteristics of the circuit system.

According to the embodiment of the present invention, it also includes:

When in the second power supply mode, obtain the temperature information of the battery;

Determine whether the temperature information exceeds a preset temperature threshold;

If yes, it is set to enter the first power supply mode.

It should be noted that the smart watch is equipped with a sensor for detecting temperature, which is used to detect the temperature information of the battery. When in the battery power supply mode, if the temperature information of the battery exceeds the preset temperature threshold, it is necessary to switch to the first power supply mode to prevent the temperature from continuing to rise. After switching to the first power supply mode, that is, the charger power supply mode, the battery does not need to provide power for the circuit system and peripheral devices of the smart watch, effectively reducing the work load, thus slowing down the temperature rise of the battery and even preventing the temperature from rising.

According to the embodiment of the present invention, it also includes:

Send the third command information and obtain the third feedback information fed back by the peripheral device;

According to the third feedback information, the first period information is obtained;

Determine whether the first time information in the first period information exceeds a preset first time threshold;

If so, the power supply mode is repeatedly switched according to the first period information.

It should be noted that the smart watch communicates with the peripheral device through the peripheral interface and sends the third instruction information to the peripheral device, and the peripheral device returns the third feedback information according to the third instruction information and the working time period. The first period information is the time period when some peripheral devices perform detection tasks, including detection duration and interval duration; the first time information is the interval duration. For example, if the detection time of the blood oxygen device is 100 milliseconds and the interval is 0 seconds, the time period is 100 milliseconds; if the detection time of the heart rate device is 10 seconds and the interval is 50 seconds, the time period is 60 seconds. When the first time period exceeds the preset first time threshold, the power supply mode may be switched to reduce the duration of the battery power supply mode. When in the detection duration stage, set to battery power supply mode to provide stable power supply for peripheral devices to ensure the stability of detection; when in the interval duration stage, set to charger power supply mode, at which time the peripheral module does not In the detection state, the requirements for power supply stability are not high, and the battery is only in the charging state, which is beneficial to improving the charging speed and protecting the battery life.

It is worth mentioning that it also includes:

When in the peripheral connection state and the first power supply mode, obtain the second voltage information;

Determine whether the second voltage information is within a preset third voltage threshold range;

If so, initialize the first duration information;

If not, update the first duration information according to the collection cycle of the second voltage;

Determine whether the first duration information exceeds a preset first duration threshold;

If yes, the first prompt information is sent to the terminal.

It should be noted that when the charger is in power supply mode and there is a peripheral device performing a measurement task, the power supply voltage provided by the charger, that is, the charger voltage, is collected according to a preset time period, and is recorded as the second voltage information. The first duration information is used to record the duration during which the charger voltage exceeds the preset range. Determine whether the charger voltage is within the preset third voltage threshold range; if so, initialize the first duration information; if not, update the first duration information according to the collection cycle, for example, taking 100 milliseconds as the charging voltage collection cycle, A duration message is incremented by 100 milliseconds. When the first duration information exceeds the preset first duration threshold, it means that the voltage stability of the charger does not meet the measurement requirements of the peripheral device, and the first prompt information is sent to the terminal to prompt the user for the peripheral device. A situation of job instability.

It is worth mentioning that it also includes:

Obtain the first voltage information and determine whether the first voltage information exceeds a preset third voltage threshold;

If so, enter the trickle charging mode and set to the second power supply mode.

It should be noted that the first voltage information is a battery voltage value, and it is determined whether the battery voltage value is higher than a preset third voltage threshold. If so, it means that the battery is nearly full and can be set to trickle charging mode, which is a low-power charging mode, to prevent the battery from being overcharged and reducing battery life. At this time, since the battery power is sufficient to meet the working needs of the smart watch and peripherals, it can be switched to battery power mode.

A third aspect of the present invention provides a computer-readable storage medium. The computer-readable storage medium includes a power supply management method program when charging a smart watch. The power supply management method program when charging a smart watch is processed by a processor. When executed, the steps of the power supply management method during charging of the smart watch as described in any of the above are implemented.

The invention provides a power supply management method, system and storage medium for a smart watch when charging, obtains charging connection status information, and determines whether to enter the charging connection state according to the charging connection status information; if so, enters the first power supply mode; obtains the first Voltage information, determine whether the first voltage information exceeds the preset first voltage threshold; if so, obtain the peripheral status information, and determine whether it is the peripheral connection status according to the peripheral status information; if so, according to the preset communication command, Obtain the second voltage threshold; determine whether the first voltage information exceeds the second voltage threshold; if so, enter the second power supply mode. Through power supply management, the present invention ensures the safety and efficiency of smart watch charging while improving the measurement stability of peripheral equipment, thereby improving the user's experience.

If the functions are implemented in the form of software function modules and sold or used as independent products, they can be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present invention essentially or the part that contributes to the existing technology or the part of the technical solution can be embodied in the form of a software product. The computer software product is stored in a storage medium, including Several instructions are used to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in various embodiments of the present invention. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disk and other media that can store program code. .

The above descriptions are only preferred embodiments of the present invention and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. A power supply management method when a smart watch is charged, the method comprising:

acquiring charging connection state information, and judging whether to enter a charging connection state according to the charging connection state information;

if yes, entering a first power supply mode;

acquiring first voltage information, and judging whether the first voltage information exceeds a preset first voltage threshold value;

if yes, acquiring peripheral state information, and judging whether the peripheral state information is a peripheral connection state or not according to the peripheral state information;

if yes, a second voltage threshold is obtained according to a preset communication instruction;

judging whether the first voltage information exceeds the second voltage threshold value;

if so, a second power supply mode is entered.

2. The power supply management method for charging a smart watch according to claim 1, further comprising:

when the second power supply mode is entered and the peripheral connection state is set;

judging whether the first voltage information is lower than a preset first voltage threshold value or not;

if yes, entering the first power supply mode;

if not, judging whether the first voltage information is lower than the second voltage threshold;

if yes, entering the first power supply mode.

3. The method for power supply management during charging of a smart watch according to claim 1, wherein the obtaining the second voltage threshold according to the preset communication command is specifically:

sending first instruction information and acquiring first feedback information fed back by the peripheral equipment;

obtaining first coding information according to the first feedback information;

judging whether first power supply information of peripheral equipment corresponding to the first coding information exists or not according to the first coding information;

if yes, setting the second voltage threshold according to the first power supply information;

if not, the second voltage threshold is obtained according to a second communication instruction.

4. The method for power supply management during charging of a smart watch according to claim 3, wherein the obtaining the second voltage threshold according to the second communication command specifically includes:

sending second instruction information and acquiring second feedback information fed back by the peripheral equipment;

obtaining first electrical parameter information of the peripheral equipment according to the second feedback information;

and searching a preset voltage supply and demand table according to the first electrical parameter information to obtain the second voltage threshold.

5. The power supply management method for charging a smart watch according to claim 1, further comprising:

when the battery is in the second power supply mode, acquiring temperature information of the battery;

judging whether the temperature information exceeds a preset temperature threshold value or not;

if yes, setting to enter the first power supply mode.

6. The power supply management method for charging a smart watch according to claim 1, further comprising:

sending third instruction information to obtain third feedback information fed back by the peripheral equipment;

obtaining first periodic information according to the third feedback information;

judging whether first time information in the first period information exceeds a preset first time threshold value or not;

if yes, the power supply mode is repeatedly switched according to the first period information.

7. The power supply management system for the charging of the intelligent watch is characterized by comprising a memory and a processor, wherein the memory comprises a power supply management method program for the charging of the intelligent watch, and the power supply management method program for the charging of the intelligent watch is executed by the processor to realize the following steps:

acquiring charging connection state information, and judging whether to enter a charging connection state according to the charging connection state information;

If yes, entering a first power supply mode;

acquiring first voltage information, and judging whether the first voltage information exceeds a preset first voltage threshold value;

if yes, acquiring peripheral state information, and judging whether the peripheral state information is a peripheral connection state or not according to the peripheral state information;

if yes, a second voltage threshold is obtained according to a preset communication instruction;

judging whether the first voltage information exceeds the second voltage threshold value;

if so, a second power supply mode is entered.

8. The power management system for a smart watch when charging of claim 7, further comprising:

when the second power supply mode is entered and the peripheral connection state is set;

judging whether the first voltage information is lower than a preset first voltage threshold value or not;

if yes, entering the first power supply mode;

if not, judging whether the first voltage information is lower than the second voltage threshold;

if yes, entering the first power supply mode.

9. The power supply management system for charging a smart watch according to claim 7, wherein the second voltage threshold is obtained according to a preset communication command, and specifically is:

Sending first instruction information and acquiring first feedback information fed back by the peripheral equipment;

obtaining first coding information according to the first feedback information;

judging whether first power supply information of peripheral equipment corresponding to the first coding information exists or not according to the first coding information;

if yes, setting the second voltage threshold according to the first power supply information;

if not, the second voltage threshold is obtained according to a second communication instruction.

10. A computer readable storage medium having stored thereon a computer program, characterized in that the computer readable storage medium comprises a power supply management method program when a smart watch is charged, which when executed by a processor, implements the steps of the power supply management method when a smart watch is charged as claimed in any one of claims 1 to 6.