CN107959314A - A kind of trickle charge method for electrically and intelligent terminal - Google Patents

Abstract

The present invention, which proposes a kind of trickle charge method for electrically and intelligent terminal, this method, to be included：When intelligent terminal connects charging equipment, detect whether to meet charging battery condition；If meeting charging battery condition, charged at a slow speed to intelligent terminal.The present invention opens charging battery when user is without the need for quick charge, realizes the quick charge needs for not only meeting user, but also farthest protect battery.

Description

Slow charging method and intelligent terminal

Technical Field

The invention relates to the technical field of battery charging, in particular to a slow charging method and an intelligent terminal.

Background

Smart terminals represented by smart phones are increasingly popularized, and some key bottleneck points are also paid more and more attention by people, such as endurance, charging speed and the like. At present, more and more manufacturers pursue rapid charging and large-current charging, the damage of the large-current charging to the battery is larger in fact, and on the contrary, the small-current charging can well protect the battery.

At present, charging is generally carried out by default at the maximum current, and some current limiting measures can be taken according to the situation under the condition of heating. However, when the user does not need to perform quick charging, the user cannot select the charging temperature range, the charging current cannot be reduced, and the charging temperature range cannot be changed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a slow charging method and an intelligent terminal, which not only take the needs of users for quick charging into consideration, but also protect the battery to the maximum extent.

The technical scheme adopted by the invention is that the slow charging method comprises the following steps:

when the intelligent terminal is connected with the charging equipment, detecting whether a slow charging condition is met;

and if the slow charging condition is met, carrying out slow charging on the intelligent terminal.

Further, the slow charging condition includes at least one of:

the system time of the intelligent terminal is in a set idle time period;

the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

the heating of the intelligent terminal exceeds a set heating value threshold or the load exceeds a set load threshold;

the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

Further, the determining method of the set idle time period includes:

and counting the idle time period of the intelligent terminal, and taking the idle time period of the intelligent terminal as the set idle time period. Further, the statistics of the idle time period of the intelligent terminal includes:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

Further, the situation of excessive heat generation of the intelligent terminal at least comprises one of the following conditions:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

Further, the overload condition of the intelligent terminal comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

Further, carry out the slow charging to intelligent terminal, include:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range.

Further, the charging temperature range of the intelligent terminal battery is controlled in a slow charging temperature range, and the method comprises the following steps:

selecting a first temperature and a second temperature within a slow charging temperature range near an upper limit of the slow charging temperature range, wherein the first temperature is greater than the second temperature;

when the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is recovered to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the first temperature and the second temperature.

The present invention also provides an intelligent terminal, comprising:

the detection module is used for detecting whether a slow charging condition is met or not when the intelligent terminal is connected with the charging equipment;

and the charging module is used for carrying out slow charging on the intelligent terminal if the slow charging condition is met.

Further, the slow charging condition includes at least one of:

the system time of the intelligent terminal is in a set idle time period;

the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

the heating of the intelligent terminal exceeds a set heating value threshold or the load exceeds a set load threshold;

the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

Further, the detection module is configured to set an idle period as follows:

and counting the idle time period of the intelligent terminal, and taking the idle time period of the intelligent terminal as the set idle time period. Further, the detection module is specifically configured to:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

Further, the situation of excessive heat generation of the intelligent terminal at least comprises one of the following conditions:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

Further, the overload condition of the intelligent terminal comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

Further, the charging module is specifically configured to:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range.

Further, the charging module is specifically configured to:

selecting a first temperature and a second temperature at a position close to the upper limit of the slow charging temperature range in the slow charging temperature range, wherein the first temperature is higher than the second temperature;

when the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is recovered to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the second temperature and the first temperature.

By adopting the technical scheme, the invention at least has the following advantages:

according to the slow charging method and the intelligent terminal, the slow charging is started when the user does not need the fast charging, so that the fast charging requirement of the user is met, and the battery is protected to the greatest extent.

Drawings

FIG. 1 is a flow chart of a slow charging method according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent terminal according to a third embodiment of the present invention;

FIG. 3 is a diagram illustrating a slow charging device applied in a mobile phone according to a fifth embodiment of the present invention;

FIG. 4 is a diagram illustrating a slow charging process in an automatic mode according to a fifth embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a modification of the charging parameter according to a fifth embodiment of the present invention.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the intended purpose, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

A first embodiment of the present invention, a slow charging method, as shown in fig. 1, includes the following steps:

step S101, when the intelligent terminal is connected with a charging device, detecting whether a slow charging condition is met;

specifically, the slow charging condition includes at least one of the following conditions:

1) the system time of the intelligent terminal is in a set idle time period;

2) the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

3) the intelligent terminal generates heat excessively or has high load; specifically, the heat of the intelligent terminal exceeds a set heat value threshold or the load exceeds a set load threshold;

4) the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

Further, the situation of excessive heat generation of the intelligent terminal at least comprises one of the following conditions:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

Further, the overload condition of the intelligent terminal comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

And S102, if the slow charging condition is met, carrying out slow charging on the intelligent terminal.

Specifically, carry out the slow speed to intelligent terminal and charge, include:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range

Further, the charging temperature range of the intelligent terminal battery is controlled in a slow charging temperature range, and the method comprises the following steps:

selecting a first temperature and a second temperature within a slow charging temperature range near an upper limit of the slow charging temperature range, wherein the first temperature is greater than the second temperature; the approach to the upper limit of the slow charging temperature range may range from 90% of the upper limit of the slow charging temperature range to the upper limit of the slow charging temperature range.

When the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced to half of the original charging current, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is restored to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the first temperature and the second temperature.

A second embodiment of the present invention is a slow charging method, which is substantially the same as the first embodiment except that a manner of determining that a system time of an intelligent terminal, which is one of slow charging conditions, is in a set idle period of a set idle period includes:

and counting the idle time period of the intelligent terminal, and taking the idle time period of the intelligent terminal as the set idle time period. Specifically, the statistics of the idle time period of the intelligent terminal includes:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

For example: the last screen-off time of the intelligent terminal in a set evening time period is the starting time of an idle time period, and the screen-on time which is the earliest and has the duration exceeding a set time threshold is the ending time of the idle time period;

and respectively averaging the starting time and the ending time within the set continuous days to count the idle time period of the intelligent terminal.

A third embodiment of the present invention is a smart terminal corresponding to the first embodiment, and as shown in fig. 2, the smart terminal includes the following components:

1) the detection module 201 is configured to detect whether a slow charging condition is met when the intelligent terminal is connected to the charging device;

specifically, the slow charging condition includes at least one of the following conditions:

a. the system time of the intelligent terminal is in a set idle time period;

b. the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

c. the intelligent terminal generates heat excessively or has high load; specifically, the heat of the intelligent terminal exceeds a set heat value threshold or the load exceeds a set load threshold;

d. the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

Further, the situation of excessive heat generation of the intelligent terminal at least comprises one of the following conditions:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

Further, the overload condition of the intelligent terminal comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

2) And the charging module 202 is configured to perform slow charging on the intelligent terminal if the slow charging condition is met.

Specifically, the charging module 202 is configured to:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range

Further, the charging module 202 is configured to:

selecting a first temperature and a second temperature at a position close to the upper limit of the slow charging temperature range in the slow charging temperature range, wherein the first temperature is higher than the second temperature;

when the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced to half of the original charging current, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is restored to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the second temperature and the first temperature.

A fourth embodiment of the present invention is an intelligent terminal, and the intelligent terminal in this embodiment is substantially the same as the third embodiment, except that a detection module in the intelligent terminal in this embodiment is configured to set an idle time period as follows:

and counting the idle time period of the intelligent terminal, and taking the idle time period of the intelligent terminal as the set idle time period. Further, the detection module is specifically configured to:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

For example: the last screen-off time of the intelligent terminal in a set evening time period is the starting time of an idle time period, and the screen-on time which is the earliest and has the duration exceeding a set time threshold is the ending time of the idle time period;

and respectively averaging the starting time and the ending time within the set continuous days to count the idle time period of the intelligent terminal.

A fifth embodiment of the present invention is based on the above embodiments, and an application example of the present invention is described with reference to fig. 3 to 5 by taking a mobile phone as an example.

As shown in fig. 3, a slow charging device applied to a mobile phone according to an embodiment of the present invention includes: a mode setting module 101, an entrance detection module 102, and a slow charge execution module 103:

a slow charging mode may be set in the mode setting module 101, and the slow charging mode includes an automatic mode and a manual mode. The automatic mode is automatically selected at the time of charging according to the system time, the current amount of electricity, and the like, and the manual mode is a mode in which the user can select to immediately start slow charging. The entrance detection module 102 performs an entrance condition detection operation during charging according to the set slow charging mode.

The slow charging execution module 103 is based on the entry detection module 102, and uses the charging parameters of the slow charging if the slow charging entry condition is satisfied during charging, including: charging current, charging temperature range, and battery NTC temperature control strategy.

In the example, the battery capacity is 3000mAh, the normal charging current is 2A, and the charging temperature range is 0-60 ℃; the slow charging current is 800mA, and the slow charging temperature range is 0-45 ℃. In the slow charging mode, the battery can be ensured to be fully charged from the fully dead state within 5 hours. As shown in fig. 4, the slow charging process in the automatic mode according to the embodiment of the present invention includes:

step S201: at the setup interface, the slow charge mode is enabled. The bottom layer is informed by the sys node, and other methods are also possible;

step S202: the slow charging automatic mode is enabled, and after the slow charging entrance condition is reached, the system automatically starts the slow charging operation without additional operation of a user during charging.

Step S203: connecting a charging device;

step S204: slow charge entry condition detection is performed based on step S203, and the slow charge entry condition in the automatic mode in this example is one of the following:

1) the system time is 0 to 6 points;

2) the system time is the unused time of the mobile phone obtained by statistics according to the use habits of the user in a period of time. The statistical rule is that in a certain time period (for example, between eight night and eight morning hours), the last screen-off time point is a starting time point suitable for slow charging, and the earliest screen-on duration time exceeds a certain value (for example, one minute) is an ending time point for using slow charging.

3) The electric quantity is more than 90%;

4) when the current consumed by the mobile phone exceeds a certain value, such as 800 mA;

5) the CPU core number is all started, and the frequency runs on a higher frequency;

6) when the temperature of the main board rises quickly or is higher;

7) after the battery is aged, the available capacity of the mobile phone is reduced to a certain proportion;

if the entry condition is satisfied, go to step S206; otherwise, go to step S205;

step S205: based on step S204, normal charging is performed. Whether the entrance condition is met or not is continuously detected in the process;

step S206: based on step S204, slow charging in the automatic mode is performed, and the charging parameters are modified as follows, as shown in fig. 5.

Step S207: in the slow charging process, when the temperature of the battery reaches 43 ℃, the slow charging current is halved, and the hysteresis value is 3 ℃, namely, the current returns to the default slow charging circuit when the temperature of the battery reaches 40 ℃. The objective is to keep the battery temperature during slow charging to less than 45 degrees.

While the invention has been described in connection with specific embodiments thereof, it is to be understood that it is intended by the appended drawings and description that the invention may be embodied in other specific forms without departing from the spirit or scope of the invention.

Claims (16)

1. A slow charging method, comprising:

when the intelligent terminal is connected with the charging equipment, detecting whether a slow charging condition is met;

and if the slow charging condition is met, carrying out slow charging on the intelligent terminal.

2. The slow charging method as claimed in claim 1, wherein the slow charging condition comprises at least one of:

the system time of the intelligent terminal is in a set idle time period;

the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

the heating of the intelligent terminal exceeds a set heating value threshold or the load exceeds a set load threshold;

the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

3. The slow charging method as claimed in claim 2, wherein the set idle period is determined in a manner comprising:

and counting the idle time period of the intelligent terminal, and taking the idle time period of the intelligent terminal as the set idle time period.

4. The slow charging method according to claim 3, wherein counting idle time periods of the intelligent terminal comprises:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

5. The slow charging method as claimed in claim 2, wherein the situation of excessive heat generation of the intelligent terminal includes at least one of:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

6. The slow charging method of claim 2, wherein the condition of the intelligent terminal being overloaded comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

7. The slow charging method according to claim 1, wherein the slow charging of the intelligent terminal comprises:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range.

8. The slow charging method according to claim 7, wherein controlling the charging temperature range of the smart terminal battery within the slow charging temperature range comprises:

selecting a first temperature and a second temperature within a slow charging temperature range near an upper limit of the slow charging temperature range, wherein the first temperature is greater than the second temperature;

when the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is recovered to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the first temperature and the second temperature.

9. An intelligent terminal, comprising:

the detection module is used for detecting whether a slow charging condition is met or not when the intelligent terminal is connected with the charging equipment;

and the charging module is used for carrying out slow charging on the intelligent terminal if the slow charging condition is met.

10. The intelligent terminal of claim 9, wherein the slow charge condition comprises at least one of:

the system time of the intelligent terminal is in a set idle time period;

the battery electric quantity of the intelligent terminal is greater than or equal to a set electric quantity threshold value;

the heating of the intelligent terminal exceeds a set heating value threshold or the load exceeds a set load threshold;

the available capacity of the battery of the intelligent terminal is reduced to a set proportional threshold.

11. The intelligent terminal according to claim 10, wherein the detection module is configured to count an idle time period of the intelligent terminal, and use the idle time period of the intelligent terminal as the set idle time period.

12. The intelligent terminal according to claim 11, wherein the detection module is specifically configured to:

counting and averaging the start and stop moments of the screen-off period reaching the set duration in the same time period within the set continuous days of the intelligent terminal to obtain the screen-off period of the intelligent terminal within the same time period;

and the screen-off time periods of the intelligent terminal in each time period in one day form the idle time period of the intelligent terminal.

13. The intelligent terminal according to claim 10, wherein the situation of excessive heat generation of the intelligent terminal comprises at least one of the following:

the consumption current of the intelligent terminal in a set time length is continuously greater than or equal to a set current threshold;

the temperature rise speed of a main board of the intelligent terminal exceeds a set temperature rise speed threshold;

the temperature of the mainboard of the intelligent terminal is greater than or equal to the set temperature threshold value.

14. The intelligent terminal according to claim 10, wherein the condition of the intelligent terminal being overloaded comprises:

the CPU cores started by the intelligent terminal are more than or equal to the set core number threshold, and the frequencies of the started CPU cores are more than or equal to the set frequency threshold.

15. The intelligent terminal according to claim 9, wherein the charging module is specifically configured to:

limiting the maximum charging current of the intelligent terminal battery as a slow maximum charging current; or,

the maximum charging current of the intelligent terminal battery is limited to be the slow maximum charging current, and the charging temperature range of the intelligent terminal battery is controlled to be within the slow charging temperature range.

16. The intelligent terminal according to claim 15, wherein the charging module is specifically configured to:

selecting a first temperature and a second temperature at a position close to the upper limit of the slow charging temperature range in the slow charging temperature range, wherein the first temperature is higher than the second temperature;

when the temperature of the intelligent terminal battery reaches the first temperature, the charging current of the intelligent terminal battery is reduced, when the temperature of the intelligent terminal battery is reduced to the second temperature, the charging current of the intelligent terminal battery is recovered to the original charging current, the charging current of the intelligent terminal battery is controlled in a circulating mode, and the temperature of the intelligent terminal battery is circulated between the second temperature and the first temperature.