CN114665558A - Wireless charging method - Google Patents
Wireless charging method Download PDFInfo
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- CN114665558A CN114665558A CN202210360469.0A CN202210360469A CN114665558A CN 114665558 A CN114665558 A CN 114665558A CN 202210360469 A CN202210360469 A CN 202210360469A CN 114665558 A CN114665558 A CN 114665558A
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- 238000000034 method Methods 0.000 title claims abstract description 32
- 238000004891 communication Methods 0.000 claims description 3
- 230000009977 dual effect Effects 0.000 abstract description 5
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 230000000694 effects Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 208000021760 high fever Diseases 0.000 description 1
Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/007—Regulation of charging or discharging current or voltage
- H02J7/007188—Regulation of charging or discharging current or voltage the charge cycle being controlled or terminated in response to non-electric parameters
- H02J7/007192—Regulation of charging or discharging current or voltage the charge cycle being controlled or terminated in response to non-electric parameters in response to temperature
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0047—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with monitoring or indicating devices or circuits
- H02J7/0048—Detection of remaining charge capacity or state of charge [SOC]
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/007—Regulation of charging or discharging current or voltage
- H02J7/00712—Regulation of charging or discharging current or voltage the cycle being controlled or terminated in response to electric parameters
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The invention discloses a wireless charging method, which belongs to the technical field of wireless charging and is suitable for electronic equipment which generates heat during operation, wherein the wireless charging method is used for charging the electronic equipment which generates heat during operation by switching a standby state, a charging state and a power-off state of a wireless charger based on a temperature threshold value and an electric quantity threshold value, and has the beneficial effects that: the intelligent charging is carried out according to the dual threshold values of the two electric quantity threshold values of the electronic equipment and the three temperature threshold values of the electronic equipment in the charging process, so that the continuous charging of the low-electric-quantity equipment in a low-risk state is guaranteed when the electric quantity is low and the temperature is lower than the high temperature threshold value, the forced charging can be realized by utilizing a forced awakening mode, the interference of heat generated by playing games during charging on the charging is avoided, and the experience of the games is increased.
Description
The technical field is as follows:
the invention belongs to the technical field of wireless charging, and particularly relates to a method for wirelessly charging heating equipment running a program.
Background art:
at present, with the development of information technology, more and more mobile phone game players are provided, mobile phone games are very power-consuming, a situation that the players play games and charge the games at the same time often occurs in life, a charging wire is used to be inserted into a bottom interface of a mobile phone to charge the mobile phone at present, the charging wire is not friendly to the players, and the players are influenced to hold the mobile phone, so that the operation is influenced.
In addition, the mobile phone is easy to generate heat when a game is run, and the temperature of the mobile phone is increased due to heat generated when the mobile phone is charged by the existing wireless charging technology. The dual heating of the mobile phone running games and the wireless charging may cause the temperature of the mobile phone to be too high, which affects the use safety.
The invention content is as follows:
to solve the above problems and overcome the disadvantages of the prior art, the present invention provides a method for wirelessly charging a heat generating device running a program,
the first technical problem can be effectively solved: at present, a charging wire is inserted into a bottom interface of the electronic equipment to charge the electronic equipment, the charging wire is very unfriendly to a player, and the player is influenced to hold the electronic equipment, so that the operation is influenced;
the second technical problem can be effectively solved: electronic equipment operation recreation and wireless dual the generating heat that charges probably cause the electronic equipment high temperature, and current wireless function of charging can not intelligent protection, the safety risk that operation and charging brought under the high fever.
The specific technical scheme for solving the technical problems comprises the following steps: the wireless charging method is suitable for operating the electronic equipment which generates heat, and the wireless charging method is used for charging the electronic equipment which generates heat in operation through switching of a standby state, a charging state and a power-off state of a wireless charger based on a temperature threshold and an electric quantity threshold.
Further, the temperature threshold includes a first temperature threshold, a second temperature threshold, and a third temperature threshold; the charge threshold includes a first charge threshold and a second charge threshold.
Further, the wireless charging method comprises:
i: when the actual temperature of the electronic device is lower than a first temperature threshold:
the electronic equipment which is heated during operation is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically cut off after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold and the second temperature threshold:
(1) if the current electric quantity of the electronic equipment is lower than a first electric quantity threshold value, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to a standby state where the electronic equipment is not charged when the electronic equipment is charged to the first electric quantity threshold value, and a user can forcibly wirelessly charge the electronic equipment through the wireless money charger which is continuously knocked by fingers to generate vibration and forcibly arouses the standby state; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger which cannot be called by the user to be in the standby state carries out forced wireless charging;
(2) if the current electric quantity of the electronic equipment is higher than the first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through continuous two-time knocking of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
III: when the actual temperature of the electronic device is between the second temperature threshold and the third temperature threshold:
(1) if the current electric quantity of the electronic equipment is lower than a first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; charging to a first electric quantity threshold value, switching to a non-charging standby state, and forcibly charging the wireless money charger in the standby state by the user;
(2) if the current electric quantity is higher than the first electric quantity threshold value, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
and IV, when the actual temperature of the electronic equipment is higher than a third temperature threshold value:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to forcibly charge wirelessly.
Further, the first temperature threshold is a low damage temperature to the electronic device, the second temperature threshold is a damage temperature to the electronic device, and the third temperature threshold is a high damage temperature to the electronic device;
the first electric quantity threshold value is the electric quantity of the energy-saving mode, and the second electric quantity threshold value is the electric quantity of the normal mode.
Further, the first temperature threshold is 35-40 degrees; the second temperature threshold is 40-55 ℃, and the third temperature threshold is 55-65 ℃;
the first electric quantity threshold value is 5-10%, and the second electric quantity threshold value is 15-30%.
Further, the wireless charger comprises a transmitting coil for interfacing with a receiving coil of the electronic device and wirelessly charging the electronic device;
the Bluetooth module is used for pairing with the Bluetooth of the electronic equipment and acquiring the current electric quantity information of the electronic equipment;
the temperature sensor module is used for detecting the temperature of the electronic equipment;
a vibration sensor module for detecting vibration generated by a finger tap;
the warning module is used for warning a user when the temperature of the electronic equipment is higher than a temperature threshold value;
and the operation control module is used for controlling the transmitting module, the Bluetooth module, the temperature sensor module, the vibration sensor module and the alarm module.
Furthermore, a power management system for detecting the current battery state is arranged in the electronic equipment, the electronic equipment is in communication connection with the wireless charger through Bluetooth, the wireless charger acquires the current battery capacity of the electronic equipment through the Bluetooth, and the wireless charger acquires the current temperature of the electronic equipment through the temperature sensor.
The invention has the beneficial effects that:
the player can play games by using the wireless charging device without inserting a charging wire into the bottom of the electronic device for charging, so that the player can have better experience feeling when playing games, and the player can intelligently charge according to the temperature of the electronic device in the charging process, thereby avoiding safety risk caused by overhigh temperature of the electronic device;
especially, the intelligent charging is carried out according to the dual threshold values of the two electric quantity threshold values of the electronic equipment and the three temperature threshold values of the electronic equipment in the charging process, so that the continuous charging of the low-electric-quantity equipment in a low-risk state is guaranteed when the electric quantity is low and the temperature is lower than the high temperature threshold value, the forced charging can be carried out by utilizing a forced awakening mode, the interference of heat generated by playing games during charging on the charging is avoided, and the experience of the games is increased.
The specific implementation mode is as follows:
in the description of the invention, specific details are given only to enable a full understanding of the embodiments of the invention, but it should be understood by those skilled in the art that the invention is not limited to these details for the implementation. In other instances, well-known structures and functions have not been described or shown in detail to avoid obscuring the points of the embodiments of the invention. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.
The specific implementation mode of the invention is as follows:
the wireless charging method is characterized in that: the wireless charging method is suitable for operating the electronic equipment which generates heat, and the wireless charging method is used for charging the operating electronic equipment which generates heat through switching of a standby state, a charging state and a power-off state of the wireless charger based on a temperature threshold and an electric quantity threshold.
Further, the temperature threshold includes a first temperature threshold, a second temperature threshold, and a third temperature threshold; the charge threshold includes a first charge threshold and a second charge threshold.
Further, the wireless charging method comprises:
i: when the actual temperature of the electronic device is below a first temperature threshold:
the electronic equipment which is heated during operation is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically cut off after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold and the second temperature threshold:
(1) if the current power of the electronic device is lower than the first power threshold,
in the process of playing games and wirelessly charging, the temperature of the mobile phone rises, the temperature sensor module can detect the temperature of the mobile phone in real time, the electronic equipment which is heated in operation is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to a first electric quantity threshold value and is switched to a non-charging standby state, and a user can forcibly wirelessly charge the electronic equipment by using the wireless money charger which generates vibration and forcibly calls the standby state through two continuous taps of fingers; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity of the electronic equipment is higher than the first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through continuous two-time knocking of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger which cannot be called by the user to be in the standby state carries out forced wireless charging;
at this time, when the electric quantity of the electronic device is higher than the first electric quantity threshold but lower than the second electric quantity threshold, for a game player, the psychology that the electric quantity is not enough to support the game time may occur, at this time, the experience of the player is reduced due to the fact that the charging is interrupted, when the electric quantity of the mobile phone reaches the second electric quantity threshold, the endurance is relatively long, and at this time, the charging is interrupted, and the influence on the player is not caused.
III: when the actual temperature of the electronic device is between the second temperature threshold and the third temperature threshold:
(1) if the current electric quantity of the electronic equipment is lower than a first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; charging to a first electric quantity threshold value, switching to a non-charging standby state, and forcibly charging the wireless money charger in the standby state by the user;
(2) if the current electric quantity is higher than the first electric quantity threshold value, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
when the temperature of the mobile phone is about to reach the second preset temperature, the alarm module gives an alarm by sound to remind a user that the charging is about to stop when the temperature of the mobile phone is too high.
And IV, when the actual temperature of the electronic equipment is higher than a third temperature threshold value:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to forcibly charge wirelessly.
Further, the first temperature threshold is a low damage temperature to the electronic device, the second temperature threshold is a damage temperature to the electronic device, and the third temperature threshold is a high damage temperature to the electronic device;
the first electric quantity threshold value is the electric quantity of the energy-saving mode, and the second electric quantity threshold value is the electric quantity of the normal mode.
Further, the first temperature threshold is 35-40 degrees; the second temperature threshold is 40-55 ℃, and the third temperature threshold is 55-65 ℃;
the first electric quantity threshold value is 5-10%, and the second electric quantity threshold value is 15-30%.
Further, the wireless charger comprises a transmitting coil for interfacing with a receiving coil of the electronic device and wirelessly charging the electronic device;
the Bluetooth module is used for pairing with the Bluetooth of the electronic equipment and acquiring the current electric quantity information of the electronic equipment;
the temperature sensor module is used for detecting the temperature of the electronic equipment;
a vibration sensor module for detecting vibration generated by a finger tap;
the warning module is used for warning a user when the temperature of the electronic equipment is higher than a temperature threshold value;
and the operation control module is used for controlling the transmitting module, the Bluetooth module, the temperature sensor module, the vibration sensor module and the alarm module.
Furthermore, a power management system for detecting the current battery state is arranged in the electronic equipment, the electronic equipment and the wireless charger are in communication connection through Bluetooth, the wireless charger acquires the current battery capacity of the electronic equipment through the Bluetooth, and the wireless charger acquires the current temperature of the electronic equipment through the temperature sensor.
In order to better understand the present invention, specific embodiments are described, it is emphasized that the effects of the embodiments are not substantially different from the various embodiments within the scope of the present invention, and the described effects of the present invention and the above-mentioned problems can be achieved;
example 1:
as a priority, the first temperature threshold here is preferably: 35 ℃, which is a low damage temperature to the electronic device; the second temperature threshold is 40 degrees, and the temperature is the damage temperature of the electronic equipment; the third temperature threshold is 55 degrees, which is a high damage temperature to the electronic device;
the first electrical quantity threshold is 5% and the second electrical quantity threshold is 15%.
The wireless charging method comprises the following steps:
i: when the actual temperature of the electronic equipment is lower than the first temperature threshold value by 35 ℃, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically disconnected after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold 35 degrees and the second temperature threshold 40 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 5%, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to a standby state where the electronic equipment is not charged when the electronic equipment is charged to the first electric quantity threshold value by 5%, and a user can forcibly wirelessly charge the electronic equipment through the wireless money charger which is continuously knocked by fingers to generate vibration and forcibly arouses the standby state; when the charging is carried out to 15% of the second electric quantity threshold value, the charging is switched to a non-charging standby state, and the wireless money charger which cannot be called up by a user in the standby state is charged in a forced wireless manner;
(2) if the current electric quantity of the electronic equipment is 5% higher than the first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through continuous two-time knocking of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to 15% of the second electric quantity threshold value, the charging is switched to a non-charging standby state, and the wireless money charger which cannot be called up by a user in the standby state is charged in a forced wireless manner;
III: when the actual temperature of the electronic device is between the second temperature threshold of 40 degrees and the third temperature threshold of 55 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 5%, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to 5% of the first electric quantity threshold value, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity is higher than the first electric quantity threshold value by 5%, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to forcibly charge wirelessly;
and IV, when the actual temperature of the electronic equipment is 55 degrees higher than a third temperature threshold:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to forcibly charge wirelessly.
Example 2:
as a priority, the first temperature threshold here is preferably: 40 degrees, which is a low damage temperature to the electronic equipment; the second temperature threshold is 55 degrees, and the temperature is the damage temperature of the electronic equipment; the third temperature threshold is 65 degrees, which is a high damage temperature to the electronic device;
the first electrical quantity threshold is 10% and the second electrical quantity threshold is 30%.
The wireless charging method comprises the following steps:
i: when the actual temperature of the electronic equipment is lower than the first temperature threshold value by 40 ℃, the electronic equipment which runs and generates heat is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically disconnected after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold of 40 degrees and the second temperature threshold of 55 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 10%, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to the standby state when the first electric quantity threshold value is 10% and is switched to the non-charging state, and a user can forcibly wirelessly charge the electronic equipment through the wireless money charger which is continuously knocked by fingers to generate vibration and forcibly arouses the standby state; when the charging is carried out to the second electric quantity threshold value of 30%, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity of the electronic equipment is higher than the first electric quantity threshold value by 10%, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through continuous two-time knocking of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the second electric quantity threshold value of 30%, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
III: when the actual temperature of the electronic device is between the second temperature threshold 55 degrees and the third temperature threshold 65 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 10%, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to 10% of the first electric quantity threshold value, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity is higher than the first electric quantity threshold value by 10%, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to perform forced wireless charging;
and IV, when the actual temperature of the electronic equipment is higher than a third temperature threshold value by 65 degrees:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner.
Example 3;
as a priority, the first temperature threshold here is preferably: 38 degrees, which is a low damage temperature to the electronic device; the second temperature threshold is 48 degrees, and the temperature is the damage temperature of the electronic equipment; the third temperature threshold is 58 degrees, which is a high damage temperature to the electronic equipment;
the first electrical quantity threshold is 8% and the second electrical quantity threshold is 25%.
The wireless charging method comprises the following steps:
i: when the actual temperature of the electronic equipment is lower than the first temperature threshold value by 38 ℃, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically disconnected after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold 38 degrees and the second temperature threshold 48 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 8%, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to the standby state when the first electric quantity threshold value is 8% and is switched to the non-charging state, and a user can forcibly wirelessly charge the electronic equipment through the wireless money charger which is continuously knocked by fingers to generate vibration and forcibly arouses the standby state; when the charging is carried out to 25% of the second electric quantity threshold, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity of the electronic equipment is 8% higher than the first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through continuous two-time knocking of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to 25% of the second electric quantity threshold, the charging is switched to a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
III: when the actual temperature of the electronic device is between the second temperature threshold of 48 degrees and the third temperature threshold of 58 degrees:
(1) if the current electric quantity of the electronic equipment is lower than the first electric quantity threshold value by 8%, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the first electric quantity threshold value of 8%, the charging is switched to a non-charging standby state, and the wireless money charger which cannot be called up by a user in the standby state is charged in a forced wireless manner;
(2) if the current electric quantity is higher than the first electric quantity threshold value by 8%, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
IV, when the actual temperature of the electronic equipment is higher than a third temperature threshold value by 58 degrees:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to forcibly charge wirelessly.
In conclusion: according to the invention, the electronic equipment is charged by using wireless charging without inserting a charging wire into the bottom of the electronic equipment, so that a player can have better experience when playing games, and intelligent charging is carried out according to the temperature of the electronic equipment in the charging process, so that the safety risk caused by overhigh temperature of the electronic equipment is avoided;
especially, the intelligent charging is carried out according to the dual threshold values of the two electric quantity threshold values of the electronic equipment and the three temperature threshold values of the electronic equipment in the charging process, so that the continuous charging of the low-electric-quantity equipment in a low-risk state is guaranteed when the electric quantity is low and the temperature is lower than the high temperature threshold value, the forced charging can be carried out by utilizing a forced awakening mode, the interference of heat generated by playing games during charging on the charging is avoided, and the experience of the games is increased.
Claims (7)
1. A wireless charging method is characterized in that: the wireless charging method is suitable for operating the electronic equipment which generates heat, and the wireless charging method is used for charging the operating electronic equipment which generates heat through switching of a standby state, a charging state and a power-off state of the wireless charger based on a temperature threshold and an electric quantity threshold.
2. The wireless charging method of claim 1, wherein the temperature threshold comprises a first temperature threshold, a second temperature threshold, and a third temperature threshold; the charge threshold includes a first charge threshold and a second charge threshold.
3. The wireless charging method according to claim 1 or 2, characterized in that the wireless charging method comprises:
i: when the actual temperature of the electronic device is below a first temperature threshold:
the electronic equipment which is heated during operation is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, and the charging is automatically cut off after the electronic equipment is fully charged;
II: when the actual temperature of the electronic device is between the first temperature threshold and the second temperature threshold:
(1) if the current electric quantity of the electronic equipment is lower than a first electric quantity threshold value, the electronic equipment which is operated and heated is placed in the working range of the wireless charger, the control module controls the transmitting coil to directly charge the electronic equipment, the electronic equipment is charged to the first electric quantity threshold value and is switched to a non-charging standby state, and a user can forcibly wirelessly charge the electronic equipment through the wireless money charger which is continuously knocked by fingers to generate vibration and forcibly arouses the standby state; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
(2) if the current electric quantity of the electronic equipment is higher than the first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, but a user can generate vibration through two continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the second electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger which cannot be called by the user to be in the standby state carries out forced wireless charging;
III: when the actual temperature of the electronic device is between the second temperature threshold and the third temperature threshold:
(1) if the current electric quantity of the electronic equipment is lower than a first electric quantity threshold value, the electronic equipment which generates heat is placed in the working range of the wireless charger, the wireless charger is in a non-charging standby state, and a user can generate vibration through three continuous taps of fingers to forcibly call the wireless money charger to wirelessly charge the electronic equipment; when the charging is carried out to the first electric quantity threshold value, the charging is switched to the non-charging standby state, and the wireless money charger which cannot be used by the user to call the standby state forcibly carries out wireless charging;
(2) if the current electric quantity is higher than the first electric quantity threshold value, the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be called by a user to be charged in a forced wireless manner;
and IV, when the actual temperature of the electronic equipment is higher than a third temperature threshold value:
the wireless money charger is in a non-charging standby state, and the wireless money charger in the standby state cannot be invoked by a user to forcibly charge wirelessly.
4. The wireless charging method according to claim 2, wherein the first temperature threshold is a low damage temperature to the electronic device, the second temperature threshold is a medium damage temperature to the electronic device, and the third temperature threshold is a high damage temperature to the electronic device;
the first electric quantity threshold value is the electric quantity of the energy-saving mode, and the second electric quantity threshold value is the electric quantity of the normal mode.
5. The wireless charging method according to claim 4, wherein the first temperature threshold is any one of 35-40 degrees; the second temperature threshold value is any one value of 40-55 degrees, and the third temperature threshold value is any one value of 55-65 degrees;
the first electric quantity threshold value is any one value of 5-10%, and the second electric quantity threshold value is any one value of 15-30%.
6. The wireless charging method of claim 3, wherein the wireless charger comprises a transmitter coil for interfacing with a receiver coil of the electronic device to wirelessly charge the electronic device;
the Bluetooth module is used for pairing with the Bluetooth of the electronic equipment and acquiring the current electric quantity information of the electronic equipment;
the temperature sensor module is used for detecting the temperature of the electronic equipment;
a vibration sensor module for detecting vibration generated by a finger tap;
the warning module is used for warning a user when the temperature of the electronic equipment is higher than a temperature threshold value;
and the operation control module is used for controlling the transmitting module, the Bluetooth module, the temperature sensor module, the vibration sensor module and the alarm module.
7. The wireless charging method according to claim 6, wherein a power management system for detecting the current battery state is disposed in the electronic device, the electronic device and the wireless charger are in communication connection via bluetooth, the wireless charger obtains the current battery power of the electronic device via bluetooth, and the wireless charger obtains the current temperature of the electronic device via a temperature sensor.
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