CN115149612A - Method and device for replacing insulating sheet of electronic equipment - Google Patents
Method and device for replacing insulating sheet of electronic equipment Download PDFInfo
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- CN115149612A CN115149612A CN202210840959.0A CN202210840959A CN115149612A CN 115149612 A CN115149612 A CN 115149612A CN 202210840959 A CN202210840959 A CN 202210840959A CN 115149612 A CN115149612 A CN 115149612A
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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
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H02J7/0031—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits using battery or load disconnect circuits
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Abstract
The invention provides a method and a device for replacing an insulating sheet of electronic equipment, which are applied to a singlechip of the electronic equipment, wherein the method comprises the following steps: receiving an electronic equipment switching signal; according to the electronic equipment switching signal, switching an inactivated state of the electronic equipment leaving a factory into an activated state, wherein the inactivated state refers to a battery power-off mode, and the activated state refers to a normal battery power supply mode; the electronic equipment has two modes for receiving the switching signal, the switching of the electronic equipment can be controlled by a circuit or user equipment, and the state from the inactivated state to the activated state is reversible; the invention can reduce the use of PVC insulation sheets and avoid the electric energy loss of batteries under abnormal use before users do not take the electronic equipment to experience use.
Description
Technical Field
The present application relates to the field of low power consumption technology management, and in particular, to a method and an apparatus for replacing an insulating sheet of an electronic device.
Background
The adoption battery power supply class product in the low-power consumption MCU scheme of the majority on the market at present can adopt the PVC insulating piece in storage and transportation usually, makes electronic product and main power supply battery carry out the physics and keeps apart, makes it to have avoided the user not to take the product to experience before using, and causes the loss of the electric energy of battery.
With respect to the related art among the above, there are the following drawbacks: when the PVC insulating sheet is used for carrying out physical isolation on an electronic product and a main power supply battery, the PVC insulating sheet is easy to fall off, and therefore useless loss is caused by the electric quantity of the battery before the product is not delivered to a user for experience.
There is a need for a method capable of replacing the PVC insulation sheet to solve the above problems.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a method and a device for replacing an insulating sheet of electronic equipment, which solve the problem of the consumption of the electric quantity of a battery when the battery products are abnormally used. In order to achieve the purpose, the invention adopts the following technical scheme:
the first aspect of the present application provides a method for replacing an insulating sheet of an electronic device, which is applied to a single chip microcomputer of the electronic device, and comprises: receiving a switching signal of the electronic equipment; and switching the factory-leaving inactivated state of the electronic equipment into an activated state according to a switching signal of the electronic equipment, wherein the inactivated state is a battery power-off mode of the electronic equipment, and the activated state is a normal battery power supply mode of the electronic equipment.
Through adopting above-mentioned technical scheme for the production assembly need not increase artifical post, has promoted production efficiency greatly, has reduced the spending of purchasing the insulating piece.
The second aspect of the present application provides a device for replacing an insulating sheet of an electronic device, which is applied to a single chip microcomputer of the electronic device, wherein the single chip microcomputer of the electronic device comprises a receiving unit and a control unit;
a receiving unit for receiving a switching signal of the electronic device;
the control unit is used for switching the factory-leaving inactivated state of the electronic equipment into an activated state according to the switching signal of the electronic equipment; the inactive state refers to a battery power-off mode of the electronic device, and the active state refers to a normal battery power supply mode of the electronic device.
Through adopting above-mentioned technical scheme for the production assembly need not increase artifical post, has promoted production efficiency greatly, has reduced the spending of purchasing the insulating piece.
Optionally, the receiving unit receives the first switching signal sent by the switching circuit.
By adopting the technical scheme, the product is in an inactivated state before being delivered to a customer for experience, and the power consumption of the battery is not needed to be worried about; the production assembly does not need to increase manual posts, the production efficiency is greatly improved, and the expenditure for purchasing the insulation sheet is saved.
Optionally, the switch circuit at least comprises a microprocessor, a resistor, a capacitor and a switch; one end of the switch is grounded, and the other end of the switch is connected with one end of the resistor; the other end of the resistor is connected with a power supply; the capacitor is connected with two ends of the switch in parallel; the other end of the switch is connected with the first interface.
By adopting the technical scheme, the electronic equipment can be activated through the switching circuit, and before the electronic equipment is delivered to customers for experience, the product is in an inactivated state, so that the electric quantity loss of the battery does not need to be worried; the use of insulating sheets is reduced, and the environment is protected.
Optionally, the receiving unit receives an electronic device switching signal sent by the user equipment, and the electronic device is configured to receive a user key duration and judge whether the key duration is greater than a preset key duration; and when the key pressing duration is longer than the preset key pressing duration, activating the equipment, and entering an activation state, wherein the preset key pressing duration refers to the time for the user to press the key.
Through adopting above-mentioned technical scheme, reduce the use of insulating piece, save the spending of purchasing the insulating piece, avoided leading to the user not taking the product experience to use because of dropping of insulating piece, cause the loss of the electric energy of battery.
Optionally, the control unit switches an inactive state of the electronic device leaving the factory to an active state through the switching circuit.
By adopting the technical scheme, the use of the insulating sheet is reduced, the expenditure for purchasing the insulating sheet is saved, and the loss of electric energy of the battery caused by the fact that a user does not take a product to experience and use due to the falling of the insulating sheet is avoided; the insulating sheet is improperly processed, children easily eat the insulating sheet by mistake, and the use of the insulating sheet is reduced, so that the condition can be avoided.
Optionally, the switching circuit at least comprises a microprocessor, a resistor, a capacitor, a diode and a PMOS transistor; one end of the resistor is connected with the G pole of the PMOS tube, the other end of the resistor is connected with a second interface, and the second interface is connected with a power supply; one end of the S pole of the PMOS tube is connected with a power supply and is connected with the cathode of the diode; one end of the D pole of the PMOS tube is connected with the anode of the diode and is connected with VCC 1; one end of the capacitor is connected with VCC1, and the other end is grounded.
By adopting the technical scheme, the switching circuit has stable performance, and the loss of the electric quantity of the battery under abnormal use due to misoperation is not easy to occur.
Optionally, the single chip receives a second switching signal sent by the switching circuit, and switches the activated state of the electronic device to the inactivated state.
By adopting the scheme, the service life of the battery can be prolonged, and the user experience is strong.
Optionally, the single chip receives an electronic device switching signal sent by the user equipment, and the electronic device is used for receiving the number of times of pressing a key by the user and judging whether the number of times of pressing the key is greater than a preset number of times; and when the number of times of pressing the key is greater than the preset number of times, switching the activation state of the electronic equipment to the non-activation state, wherein the preset number of times refers to the number of times of continuously pressing the key within two seconds.
By adopting the technical scheme, when the mobile terminal is not used for a long time, a user can switch the activated state of the electronic equipment into the inactivated state, so that the service life of the battery is prolonged; the use of insulating sheets is reduced, which is beneficial to environmental protection.
A third aspect of the application provides an electronic device comprising a processor, a memory for storing instructions, and a transceiver for communicating with other devices, the processor being configured to execute the instructions stored in the memory, such that an electronic device unit performs the method according to any of the first aspect of the application.
A fourth aspect of the present application provides a computer-readable storage medium having stored thereon instructions which, when executed, perform the method of any of the first aspects of the present application.
Compared with the prior art, the invention has the beneficial effects that: before the product is delivered to a customer for experience, the product is in an inactivated state, and the electric quantity loss of a battery does not need to be worried; manual posts are not needed to be added in the production and assembly, so that the production efficiency is greatly improved, and the expense for purchasing the insulating sheet is saved; when the battery is not used for a long time, the user can switch the activated state of the electronic equipment into the inactivated state, so that the service life of the battery is prolonged, and the user experience is strong; the PVC insulating sheet is easy to cause environmental pollution after being discarded after being used, the use of the insulating sheet is reduced, and the environment is protected; because of the improper treatment children of the PVC insulating piece after scrapping take place the mistake easily and eat, take place for avoiding this kind of condition, reduce the use of PVC insulating piece.
Drawings
Fig. 1 is a schematic view of an electronic device provided in an embodiment of the present application with an insulating sheet;
fig. 2 is a schematic view of a scenario for replacing an insulating sheet of an electronic device according to an embodiment of the present application;
fig. 3 is a schematic flow chart illustrating a method for replacing an insulating sheet of an electronic device according to an embodiment of the present disclosure;
FIG. 4 is a schematic diagram illustrating a method for replacing an insulating sheet of an electronic device according to an embodiment of the present application;
FIG. 5 is a schematic flow chart illustrating another method for replacing an insulation sheet of an electronic device according to an embodiment of the present application;
FIG. 6 is a schematic diagram illustrating another method for replacing an insulating sheet of an electronic device according to an embodiment of the present disclosure;
FIG. 7 is a schematic flow chart illustrating another method for replacing an insulation sheet of an electronic device according to an embodiment of the present application;
FIG. 8 is a schematic diagram illustrating a method for replacing an insulating sheet of an electronic device according to an embodiment of the present application;
fig. 9 is a schematic flow chart of an apparatus for replacing an insulating sheet of an electronic device according to an embodiment of the present disclosure;
fig. 10 is a schematic structural diagram of an electronic device according to an embodiment of the present application.
The meaning of the reference symbols in the figures: 101-insulating sheet.
Detailed Description
In order to make those skilled in the art better understand the technical solutions in the present specification, the following provides further detailed description of the present application.
The application is applied to a singlechip of electronic equipment, a method for replacing an electronic insulation sheet is provided, and fig. 1 is a scene schematic diagram of the electronic equipment with the insulation sheet provided by the embodiment of the application; at present, the adoption battery powered product in the low-power consumption MCU scheme of the majority, can adopt the PVC insulating piece in storage and transportation usually, make electronic product and main power supply battery carry out physical isolation, make it to have avoided the user to experience before using in not taking the product, and cause the loss of the electric energy of battery, the arrow point in figure 1 is located and is using the PVC insulating piece, it drops to use the PVC insulating piece to take place very easily, lead to the product not to deliver before user experience, battery power causes useless loss, for solving this problem, adopt a method of replacing the electronic equipment insulating piece, utilize the power down mode function that microprocessor itself possesses, possess software function program at itself and design out two kinds of mode, be activation state and non-activation state respectively, figure 2 is the scene sketch map that a substitution electronic equipment insulating piece that this application embodiment provided.
The embodiment of the application discloses a method for replacing an insulating sheet of electronic equipment, the application is applied to a single chip microcomputer of the electronic equipment, fig. 3 is a flow schematic diagram of the method for replacing the insulating sheet of the electronic equipment, and referring to fig. 3, the method comprises steps S301 to S302:
step S301: receiving a switching signal of the electronic equipment;
step S302: according to the electronic equipment switching signal, switching the inactive state of the electronic equipment leaving the factory to the active state;
the inactive state refers to a battery power-off mode of the electronic equipment, and the active state refers to a normal battery power supply mode of the electronic equipment.
In the above step, the factory state of the electronic device is in an inactive state, and the electronic device switches the inactive state from the factory state to an active state by receiving a signal for switching the electronic device, where the inactive state refers to a battery power-off mode of the electronic device, and the active mode reception refers to a normal battery power-supply mode of the electronic device. By adopting the method, no manual post is needed to be added in the production and assembly, the production efficiency is greatly improved, and the loss of the electric quantity of the battery under abnormal conditions caused by the falling of the insulating sheet can be avoided.
In a possible embodiment, the single chip microcomputer receives the first switching signal sent by the switching circuit. By adopting the method, the electronic equipment has two methods for receiving the switching signal, thereby saving the expense of purchasing the insulating sheet and greatly improving the production efficiency.
In a possible embodiment, fig. 4 is a schematic diagram illustrating a method for replacing an insulating sheet of an electronic device according to another embodiment of the present application; the switch circuit at least comprises a microprocessor MCU, a resistor R1, a capacitor C1 and a switch S1; one end of the S1 is grounded, the other end of the S1 is connected with one end of the R1, and the other end of the R1 is connected with the VCC; the capacitor is connected with two ends of the switch in parallel, and the other end of the switch is connected with the first interface MCU IO 1.
In the circuit, the switch S1 is in a closed state, when a user presses the switch S1, the switch S1 is in a non-conducting state, the switch circuit outputs a high level to the first interface MCU IO 1 of the microprocessor, and the microprocessor receives a signal and sends the signal to the switching circuit to switch the state of the electronic equipment.
In a possible embodiment, the switch may also be a sensor, and in response to the sensor being turned on, the switch circuit outputs a high level to the first interface MCU IO 1 of the microprocessor, and the microprocessor receives the signal and sends the signal to the switching circuit to switch the state of the electronic device. By adopting the method, the switch circuit is simple, the performance is stable, the use of insulating sheets is reduced, and the environment is protected.
In a possible embodiment, fig. 5 is a schematic flowchart illustrating a method for replacing an insulation sheet of an electronic device according to an embodiment of the present application; the method comprises the steps that a single chip microcomputer receives an electronic equipment switching signal sent by user equipment, the electronic equipment is used for receiving user key duration, and judging whether the key duration is larger than preset key duration or not; and when the key duration is greater than the preset key duration, activating the equipment, and enabling the electronic equipment to enter an activated state. Key presses may also be used to activate the electronic device.
For example, when the electronic device is a remote controller, the preset key duration is set to 5 seconds, and when the user presses the setting key of the remote controller for 6 seconds, the user presses the long key for a time longer than the preset key duration, the remote controller is activated, and the remote controller enters a normal operating mode. The actual preset key duration is based on the actual situation. By adopting the method, the electronic equipment is not easy to be in an activated state due to misoperation, and the isolation effect is better played.
In one possible embodiment, according to the electronic device switching signal, the inactive state of the electronic device leaving the factory is switched to the active state through the switching circuit, there are two methods for receiving the switching signal of the electronic device, and the other method receives the switching signal sent by the singlechip switching circuit. By adopting the method, the number of peripheral circuits is reduced, the performance is stable, the production efficiency is improved, and the cost for purchasing the insulation sheet is reduced.
In a possible embodiment, fig. 6 is a schematic diagram illustrating another method for replacing an insulating sheet of an electronic device according to an embodiment of the present application, in which a switching circuit at least includes a microprocessor, a resistor, a capacitor, a diode, and a PMOS transistor;
one end of the resistor is connected with the G pole of the PMOS tube, the other end of the resistor is connected with a second interface MCU IO 2, and the second interface MCU IO 2 is connected with a power supply; one end of the S pole of the PMOS tube is connected with a power supply and is connected with the cathode of the diode; one end of the D pole of the PMOS tube is connected with the anode of the diode and is connected with VCC 1; one end of the capacitor is connected with VCC1, and the other end is grounded.
In the above circuit, the switch circuit has been described above, and not described herein, the switch S1 in the switch circuit is in a closed state, when we press the switch S1, the switch S1 is in an open state, the switch circuit inputs a high level to the first interface MCU IO 2, the second interface MCU IO 2 outputs the high level to the switching circuit through the microprocessor MCU, the PMOS transistor is turned on, the C1 is charged to enter a normal power supply mode, VCC is a positive electrode of a battery of the electronic device, a ground is a negative electrode of the battery, and the diode plays an overvoltage protection role for the PMOS transistor. By adopting the method, the use of PVC insulation sheets is reduced, and the environment is protected.
In a possible embodiment, the single chip microcomputer receives a second switching signal sent by the switching circuit, and switches the activated state of the electronic device to the inactivated state in response to a user operation. In fig. 6, a switch S1 in the circuit is in an off state, the electronic device is in a battery power supply mode, that is, an active state, when a user presses the switch S1, the switch S1 is in a closed state, the switch circuit outputs a low level to a first interface MCU IO 1, the second interface MCU IO 2 outputs a low level to a switching circuit through a microprocessor MCU, a PMOS transistor is turned off, C1 discharges and enters a power-off mode, that is, an inactive state, VCC1 is a power supply in the inactive state, VCC is a battery anode of the electronic device, and a ground is a cathode of the battery.
In a possible embodiment, the switch may also be a sensor, and in response to the turning-off of the sensor, the switch circuit outputs a low level to the first interface MCU IO 1 of the microprocessor, and the microprocessor receives the signal and sends the signal to the switching circuit to switch the state of the electronic device. By adopting the method, when the electronic equipment is not used for a long time, the service life of the battery can be prolonged by switching the state of the electronic equipment.
In one possible embodiment, the single chip receives an electronic device switching signal sent by user equipment, and the electronic device is used for receiving the number of times of pressing keys by a user and judging whether the number of times of pressing the keys is greater than a preset number of times; and when the number of times of pressing the key is greater than the preset number of times, the electronic equipment is switched from the activated state to the deactivated state, wherein the preset number of times refers to the number of times of continuous keys within two seconds.
For example, when the electronic device is a remote controller, the preset number of times is set to 6 times of continuous pressing within two seconds, when the number of times of pressing within two seconds by the user is 6 times, whether the number of pressing times is the preset number of times is judged in response to the number of times of switching of the user key, and when the number of times is greater than or equal to the preset number of times, the electronic device is switched from an activated state to an inactivated state. The actual preset key duration is based on the actual situation. By adopting the method, when the user does not need to use the electronic equipment for a long time, the activation state of the remote controller can be switched to the non-activation state by pressing the key for times, and the service life of the battery is prolonged.
Fig. 7 is a flowchart of another method for replacing an insulating sheet of an electronic device according to an embodiment of the present disclosure, where the electronic device is in an inactive state when leaving a factory, that is, in a power-off mode of a battery of the electronic device, the electronic device determines whether an activation signal is present, confirms that the activation signal is present, and the electronic device enters a battery power supply mode; the absence of an activation signal is confirmed,
the circuit can judge whether the time of long key pressing of the user is longer than the preset key pressing time length or not, the user is confirmed to enter the electronic equipment activation mode when the time of long key pressing of the user is longer than the preset key pressing time length, and the battery of the electronic equipment carries out the power supply mode; and confirming that the long key pressing duration of the user is less than the preset key pressing duration, and the electronic equipment is still in an inactivated state, namely the battery of the electronic equipment is in a power-off mode.
When a user does not use the electronic equipment for a long time, the electronic equipment can be set in an inactivated state after production testing is finished; and the circuit can be used for judging whether the number of times that the user presses the key within two seconds is a preset number, confirming that the number of times that the user presses the key within two seconds is the preset number, and enabling the electronic equipment to enter an inactivated state.
Compared with a PVC insulation sheet for isolating the battery, the method can isolate the battery through software control or user operation, and the method is reversible from an inactivated state to an activated state and has strong user experience. Fig. 8 is a schematic diagram illustrating another method for replacing an insulation sheet of an electronic device according to an embodiment of the present application.
The embodiment of the application discloses a device for replacing an insulating sheet of electronic equipment, and fig. 9 is a schematic flow chart of the device for replacing the insulating sheet of the electronic equipment, which is applied to a singlechip of the electronic equipment, wherein the singlechip of the electronic equipment comprises a receiving unit and a control unit;
a receiving unit for receiving a switching signal of an electronic device;
the control unit is used for switching the factory-leaving inactivated state of the electronic equipment into an activated state according to the switching signal of the electronic equipment; the inactive state refers to a battery power-off mode of the electronic device, and the active state refers to a normal battery power supply mode of the electronic device.
The receiving unit is used for receiving a switching signal of the electronic equipment and sending the received switching signal to the control unit, and the control unit switches the inactive state of the electronic equipment leaving the factory to the active state according to the switching signal.
In one possible embodiment, the receiving unit receives an electronic device switching signal transmitted by the switching circuit.
In one possible embodiment, the switching circuit includes at least a microprocessor, a resistor, a capacitor, and a switch; one end of the switch S1 is grounded, and the other end of the switch S1 is connected with one end of the resistor R1; the other end of the resistor is connected with a power supply; the capacitor C1 is connected with the two ends of the switch S1 in parallel; the other end of the switch S1 is connected with a first interface MCU IO 1.
In a possible embodiment, the receiving unit receives an electronic device switching signal sent by the user device, determines whether the time for the user to press the switch is longer than a preset key duration, and activates the device when the time is longer than the preset key duration, so that the electronic device enters an activated state.
In one possible embodiment, the control unit switches an inactive state of the electronic device leaving a factory to an active state through the switching circuit.
In one possible embodiment, the switching circuit at least comprises a microprocessor, a resistor, a capacitor, a diode and a PMOS tube; one end of the resistor is connected with a G pole of the PMOS tube, the other end of the resistor is connected with a second interface MCU IO 2, and the second interface MCU IO 2 is connected with a power supply; one end of the S pole of the PMOS tube is connected with a power supply and is connected with the cathode of the diode; one end of the D pole of the PMOS tube is connected with the anode of the diode and is connected with VCC 1; one end of the capacitor is connected with VCC1, and the other end of the capacitor is grounded.
In one possible embodiment, whether the electronic device receives the control switching signal is judged, and the active state of the electronic device is switched to the inactive state when the switching signal is received.
In one possible embodiment, the single chip receives an electronic device switching signal sent by user equipment, and the electronic device is used for receiving the number of times of pressing keys by a user and judging whether the number of times of pressing the keys is greater than a preset number of times; and when the number of times of pressing the key is greater than the preset number of times, the electronic equipment is switched from the activated state to the deactivated state, wherein the preset number of times refers to the number of times of continuously pressing the key within two seconds.
By adopting the scheme, the product is in an inactivated state before being delivered to a customer for experience, and the power consumption of the battery is not needed to be worried about; manual posts are not required to be added in the production and assembly, so that the production efficiency is greatly improved, and the expenditure for purchasing the insulation sheet is saved; when the battery is not used for a long time, the user can switch the activated state of the electronic equipment into the inactivated state, so that the service life of the battery is prolonged, and the user experience is strong; the PVC insulating sheet is easy to cause environmental pollution after being discarded after being used, the use of the insulating sheet is reduced, and the environment is protected; because of the improper treatment children of the PVC insulating piece after scrapping take place the mistake easily and eat, take place for avoiding this kind of condition, reduce the use of PVC insulating piece.
It should be noted that: in the above embodiment, when the device implements the functions thereof, only the division of the functional modules is illustrated, and in practical applications, the functions may be distributed by different functional modules according to needs, that is, the internal structure of the device may be divided into different functional modules to implement all or part of the functions described above. In addition, the apparatus and method embodiments provided by the above embodiments belong to the same concept, and specific implementation processes thereof are described in the method embodiments for details, which are not described herein again.
Fig. 10 is a schematic structural diagram of an electronic device according to an embodiment of the present application. As shown in fig. 10, the electronic device 1000 may include: at least one processor 1001, at least one network interface 1004, a user interface 1003, memory 1005, at least one communication bus 1002.
Wherein a communication bus 1002 is used to enable connective communication between these components.
The user interface 1003 may include a Display screen (Display) and a Camera (Camera), and the optional user interface 1003 may also include a standard wired interface and a wireless interface.
The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), among others.
The Memory 1005 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). Optionally, the memory 1005 includes a non-transitory computer-readable medium. The memory 1005 may be used to store an instruction, a program, code, a set of codes, or a set of instructions. The memory 1005 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described above, and the like; the storage data area may store data and the like referred to in the above respective method embodiments. The memory 1005 may optionally be at least one memory device located remotely from the processor 1001. As shown in fig. 10, a memory 1005, which is a computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a method and apparatus application program for replacing an insulating sheet of an electronic device.
In the electronic device 1000 shown in fig. 10, the user interface 1003 is mainly used as an interface for providing input for a user, and acquiring data input by the user; the processor 1001 may be configured to invoke a method and apparatus application stored in the memory 1005 that replaces an insulating sheet of the electronic device, which when executed by the one or more processors, causes the electronic device to perform the method as described in one or more of the above embodiments.
Embodiments of the present application provide a computer-readable storage medium having stored thereon instructions that, when executed by one or more processors, cause an electronic device to perform a method as described in one or more of the above embodiments.
It is clear to a person skilled in the art that the solution of the present application can be implemented by means of software and/or hardware. The term "unit" and "module" in this specification refers to software and/or hardware capable of performing a specific function independently or in cooperation with other components, wherein the hardware may be, for example, a Field-ProgrammaBLE Gate Array (FPGA), an Integrated Circuit (IC), or the like.
It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.
In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one type of division of logical functions, and there may be other divisions when actually implementing, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some service interfaces, indirect coupling or communication connection of devices or units, and may be electrical or in other forms.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented as a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable memory. Based on such understanding, the technical solution of the present application may be substantially implemented or a part of or all or part of the technical solution contributing to the prior art may be embodied in the form of a software product stored in a memory, and including several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned memory comprises: various media capable of storing program codes, such as a usb disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk.
Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by a program, which is stored in a computer-readable memory, and the memory may include: flash disks, read-Only memories (ROMs), random Access Memories (RAMs), magnetic or optical disks, and the like.
The above description is merely an exemplary embodiment of the present disclosure, and the scope of the present disclosure is not limited thereto. That is, all equivalent changes and modifications made in accordance with the teachings of the present disclosure are intended to be included within the scope of the present disclosure. Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.
The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. A method for replacing an insulation sheet of electronic equipment is characterized by being applied to a singlechip of the electronic equipment, and the method comprises the following steps:
receiving an electronic equipment switching signal;
and switching an inactive state of the electronic equipment leaving a factory into an active state according to the electronic equipment switching signal, wherein the inactive state is a battery power-off mode of the electronic equipment, and the active state is a normal battery power supply mode of the electronic equipment.
2. The method of claim 1, wherein the receiving an electronic device switching signal; the method specifically comprises the following steps:
the singlechip receives a first switching signal sent by the switching circuit.
3. The method of claim 2, wherein the switching circuit comprises at least a microprocessor, a resistor, a capacitor, and a switch; one end of the switch is grounded, and the other end of the switch is connected with one end of the resistor; the other end of the resistor is connected with a power supply; the capacitor is connected with two ends of the switch in parallel; the other end of the switch is connected with the first interface.
4. The method of claim 1, wherein the receiving an electronic device switching signal; the method specifically comprises the following steps:
the single chip microcomputer receives an electronic equipment switching signal sent by user equipment; the electronic equipment is used for receiving the key pressing duration of a user and judging whether the key pressing duration is greater than the preset key pressing duration or not; and confirming that the key duration is greater than the preset key duration to activate the equipment, and enabling the electronic equipment to enter an activated state.
5. The method according to claim 1, wherein switching an inactive state of the electronic device leaving a factory to an active state according to the electronic device switching signal specifically includes:
the inactive state of the electronic equipment leaving factory is switched to the active state through the switching circuit.
6. The method of claim 5, wherein the switching circuit comprises at least a microprocessor, a resistor, a capacitor, a diode, and a PMOS transistor;
one end of the resistor is connected with the G pole of the PMOS tube, the other end of the resistor is connected with a second interface, and the second interface is connected with a power supply; one end of the S pole of the PMOS tube is connected with a power supply and is connected with the cathode of the diode; one end of the D pole of the PMOS tube is connected with the anode of the diode and is connected with VCC 1; one end of the capacitor is connected with VCC1, and the other end of the capacitor is grounded.
7. The method of claim 1, further comprising:
and the singlechip receives a second switching signal sent by the switching circuit and switches the activated state of the electronic equipment to the inactivated state.
8. The method of claim 1, further comprising:
the single chip microcomputer receives an electronic equipment switching signal sent by user equipment, and the electronic equipment is used for receiving the times of pressing keys of a user and judging whether the times of pressing the keys is greater than preset times; and when the number of times of pressing the key is greater than the preset number of times, the activation state of the electronic equipment is switched to the non-activation state, wherein the preset number of times refers to the number of times of continuous keys within two seconds.
9. A device for replacing an insulating sheet of electronic equipment is characterized in that the device is applied to a singlechip of the electronic equipment, and the singlechip of the electronic equipment comprises a receiving unit and a control unit;
the receiving unit is used for receiving an electronic equipment switching signal;
the control unit switches the factory-leaving inactive state of the electronic equipment to an active state according to the electronic equipment switching signal; the inactive state is a battery power-off mode of the electronic equipment, and the active state is a normal battery power supply mode of the electronic equipment.
10. An electronic device comprising a processor, a memory for storing instructions, and a transceiver for communicating with other devices, the processor being configured to execute the instructions stored in the memory to cause the electronic device to perform the method of any one of claims 1-8.
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