CN116761234A - Equipment code matching method and system - Google Patents

Abstract

The application discloses a device code matching method, which comprises the following steps: the method comprises the steps that when a signal receiver detects a first induction signal of a peripheral product in a signal detection state, equipment code matching is carried out according to the first induction signal and the peripheral product; and in a signal detection state, when the peripheral product detects a second induction signal of the signal receiver, carrying out equipment code matching according to the second induction signal and the signal receiver. By applying the technical scheme provided by the application, simpler and more convenient automatic equipment code matching between the peripheral product and the signal receiver is realized, and the equipment code matching efficiency between the peripheral product and the signal receiver is effectively ensured. The application also discloses a device code matching system which has the technical effects.

Description

Equipment code matching method and system

Technical Field

The application relates to the technical field of communication, in particular to a device code matching method and a device code matching system.

Background

In order to realize data communication between the peripheral product and the host end, equipment code matching is required to be carried out with the peripheral product through a signal receiver of the host end. In the related art, the peripheral product can enter the code matching state through a combination key or a specific code matching key, and the signal receiver can enter the code matching state through the related software operation of the host end, so that the code matching of the peripheral product and the signal receiver is completed. However, this implementation requires the user to perform more code matching operations, which is inconvenient to use.

Therefore, how to realize simpler and more convenient device code matching between the peripheral product and the signal receiver, and further ensure the device code matching efficiency is a problem to be solved by those skilled in the art.

Disclosure of Invention

The application aims to provide a device code matching method, which realizes simpler and more convenient automatic device code matching between a peripheral product and a signal receiver and effectively ensures the device code matching efficiency; another object of the present application is to provide a device code matching system, which also has the above beneficial effects.

In a first aspect, the present application provides a device code matching method, including:

the method comprises the steps that when a signal receiver detects a first induction signal of a peripheral product in a signal detection state, equipment code matching is carried out according to the first induction signal and the peripheral product;

and in a signal detection state, when the peripheral product detects a second induction signal of the signal receiver, carrying out equipment code matching according to the second induction signal and the signal receiver.

Optionally, the signal receiver is provided with a first sensing device and a first detection circuit, and the peripheral product is provided with a second sensing device and a second detection circuit;

when a first induction signal of a peripheral product is detected, performing equipment code matching according to the first induction signal and the peripheral product, wherein the equipment code matching comprises the following steps:

when the change signal of the first sensing device is detected through the first detection circuit, determining that a first sensing signal of the peripheral product is detected, and performing equipment code matching with the peripheral product according to the first sensing signal; the change signal of the first sensing device is caused by the trigger signal of a first trigger device in the peripheral product, and the first trigger device corresponds to the first sensing device;

correspondingly, when detecting the second induction signal of the signal receiver, performing device code matching with the signal receiver according to the second induction signal, including:

when the change signal of the second sensing device is detected through the second detection circuit, determining that the second sensing signal of the signal receiver is detected, and performing equipment code matching with the signal receiver according to the second sensing signal; wherein the change signal of the second sensing device is caused by the trigger signal of a second trigger device in the signal receiver, and the second trigger device corresponds to the second sensing device.

Optionally, the first sensing device is a hall sensing device, and the first triggering device is a magnet.

Optionally, the first sensing device is a contact charging device, and the first triggering device is a power supply device.

Optionally, the first sensing device is a reed sensor, and the first triggering device is a magnet.

Optionally, the second sensing device is a hall sensing device, and the second triggering device is a magnet.

Optionally, the second sensing device is a contact charging device, and the second triggering device is a power supply device.

Optionally, the second sensing device is a reed sensor, and the second triggering device is a magnet.

Optionally, the signal receiver is provided with a third sensing device, and the peripheral product is provided with a fourth sensing device;

when a first induction signal of a peripheral product is detected, performing equipment code matching according to the first induction signal and the peripheral product, wherein the equipment code matching comprises the following steps:

when a trigger signal of a third trigger device is detected through the third sensor device, determining that a first sensor signal of the peripheral product is detected, and performing equipment code matching with the peripheral product according to the first sensor signal; the third trigger device is arranged in the peripheral product and corresponds to the third sensing device;

correspondingly, when detecting the second induction signal of the signal receiver, performing device code matching with the signal receiver according to the second induction signal, including:

when the trigger signal of the fourth trigger device is detected through the fourth sensor device, determining that a second sensor signal of the signal receiver is detected, and performing equipment code matching with the signal receiver according to the second sensor signal; the fourth trigger device is arranged in the signal receiver, and corresponds to the fourth sensing device.

Optionally, the third sensing device is a power source sensing device, and the third triggering device is a wireless charger.

Optionally, the third sensing device and the third triggering device are both radio frequency chips.

Optionally, the third sensing device and the third triggering device are both infrared transceivers.

Optionally, the fourth sensing device is a power source sensing device, and the fourth triggering device is a wireless charger.

Optionally, the fourth sensing device and the fourth triggering device are both radio frequency chips.

Optionally, the fourth sensing device and the fourth triggering device are both infrared transceivers.

Optionally, the performing device code matching with the peripheral product according to the first sensing signal includes:

acquiring first code matching information of the peripheral product according to the first induction signal, and determining that equipment code matching of the peripheral product passes when the local code matching information of the signal receiver is consistent with the first code matching information;

correspondingly, the device code matching according to the second sensing signal and the signal receiver comprises:

and acquiring second code matching information of the signal receiver according to the second induction signal, and determining that equipment code matching with the signal receiver passes when the local code matching information of the peripheral product is consistent with the second code matching information.

Optionally, the device code matching method further includes:

the signal receiver stores the first code information when the signal receiver passes through the code matching with the equipment of the peripheral product;

and when the peripheral product passes through the equipment code matching of the signal receiver, the second code matching information is stored.

In a second aspect, the present application also discloses a device code matching system, including:

the signal receiver is used for carrying out equipment code matching according to the first induction signal and the peripheral product when the first induction signal of the peripheral product is detected in a signal detection state;

and the peripheral product is used for carrying out equipment code matching according to the second induction signal and the signal receiver when the second induction signal of the signal receiver is detected in the signal detection state.

The application provides a device code matching method, which comprises the following steps: the method comprises the steps that when a signal receiver detects a first induction signal of a peripheral product in a signal detection state, equipment code matching is carried out according to the first induction signal and the peripheral product; and in a signal detection state, when the peripheral product detects a second induction signal of the signal receiver, carrying out equipment code matching according to the second induction signal and the signal receiver.

By applying the technical scheme provided by the application, when the host equipment end needs to perform equipment code matching with the peripheral product, the working state of the signal receiver can be started to be a signal detection state, meanwhile, the working state of the peripheral product is started to be a signal detection state, under the state, the signal receiver can detect the induction signal of the peripheral product in real time and automatically perform code matching with the peripheral product when detecting the induction signal of the peripheral product, the peripheral product can also detect the induction signal of the signal receiver in real time and automatically perform code matching with the signal receiver when detecting the induction signal of the signal receiver, so that the equipment code matching between the host end and the peripheral product is realized, and the technical scheme realizes simpler and more convenient automatic equipment code matching between the peripheral product and the signal receiver, and effectively ensures the equipment code matching efficiency between the peripheral product and the signal receiver.

The device code matching system provided by the application has the technical effects as well, and the application is not repeated here.

Drawings

In order to more clearly illustrate the technical solutions in the prior art and the embodiments of the present application, the following will briefly describe the drawings that need to be used in the description of the prior art and the embodiments of the present application. Of course, the following drawings related to embodiments of the present application are only a part of embodiments of the present application, and it will be obvious to those skilled in the art that other drawings can be obtained from the provided drawings without any inventive effort, and the obtained other drawings also fall within the scope of the present application.

Fig. 1 is a schematic flow chart of a device code matching method provided by the application;

FIG. 2 is a schematic flow chart of an automatic code matching method for a peripheral product terminal;

fig. 3 is a schematic flow chart of an automatic code matching method at a signal receiver end provided by the application;

fig. 4 is a schematic structural diagram of a device code matching system according to the present application.

Detailed Description

The core of the application is to provide a device code matching method, which realizes simpler and more convenient automatic device code matching between the peripheral product and the signal receiver, and effectively ensures the device code matching efficiency; the application further provides a device code matching system which has the beneficial effects.

In order to more clearly and completely describe the technical solutions in the embodiments of the present application, the technical solutions in the embodiments of the present application will be described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The embodiment of the application provides a device code matching method.

Referring to fig. 1, fig. 1 is a flowchart of an apparatus code matching method provided in the present application, where the apparatus code matching method may include the following steps S101 and S102.

S101: when the signal receiver detects a first induction signal of the peripheral product in a signal detection state, the signal receiver performs equipment code matching according to the first induction signal and the peripheral product.

It can be understood that, in order to implement data communication between the peripheral product and the host device, device code matching is required to be performed between the peripheral product and the signal receiver at the host device. The device code matching refers to that the signal receiver performs information code matching on an external product, the external product performs information code matching on the signal receiver, after the information code matching of the two parties passes, the device code matching can be confirmed to be completed between the two parties, and the data interaction flow can be entered at the moment. The peripheral products include, but are not limited to, wireless mice, wireless keyboards, wireless headphones, wireless handles, and the like.

In this step, the purpose is to realize the device code matching of the signal receiver to the external product. Specifically, when the host device needs to perform device code matching with the peripheral product, the communication command can be issued to the signal receiver, so that the signal receiver can respond to the communication command and control the working state of the signal receiver to enter a signal detection state. It can be understood that, in the signal detection state, the signal receiver can detect the induction signal of the external product (i.e. the first induction signal) in real time, so as to automatically enter the code matching process with the external product when the first induction signal of the external product is detected, thereby realizing the equipment code matching of the signal receiver to the external product. Therefore, when the signal receiver enters a signal detection state, real-time sensing signal detection is performed, and once a first sensing signal of a peripheral product is detected, equipment code matching is performed according to the first sensing signal and the peripheral product to which the first sensing signal belongs.

S102: and in the signal detection state, when the peripheral product detects a second induction signal of the signal receiver, performing equipment code matching according to the second induction signal and the signal receiver.

In this step, the device code matching of the peripheral product to the signal receiver is intended to be realized. Specifically, the peripheral product can start the signal detection working mode and enter the signal detection state, and in the same way, in the signal detection state, the peripheral product can detect the induction signal (namely the second induction signal) of the signal receiver in real time so as to automatically enter the code matching flow with the signal receiver when the second induction signal of the signal receiver is detected, thereby realizing the equipment code matching of the peripheral product to the signal receiver. Therefore, when the peripheral product enters a signal detection state, real-time sensing signal detection is performed, and once the second sensing signal of the signal receiver is detected, equipment code matching is performed according to the second sensing signal and the signal receiver to which the second sensing signal belongs.

Thus, based on the S101 and S102, the device code matching of the signal receiver to the external product and the device code matching of the external product to the signal receiver are realized, and at this time, the two can enter a data communication flow to complete data interaction.

Therefore, when the host device end needs to perform device code matching with the peripheral product, the working state of the signal receiver can be started to be a signal detection state, meanwhile, the working state of the peripheral product is started to be a signal detection state, in the state, the signal receiver can detect the induction signal of the peripheral product in real time, and automatically perform code matching with the peripheral product when detecting the induction signal of the peripheral product, the peripheral product can also automatically perform code matching with the signal receiver when detecting the induction signal of the signal receiver, so that the device code matching between the host end and the peripheral product is realized, and the technical scheme can realize simpler and more convenient automatic device code matching between the peripheral product and the signal receiver, and effectively ensure the device code matching efficiency between the peripheral product and the signal receiver.

Based on the above embodiments:

in one embodiment of the application, the signal receiver is provided with a first sensing device and a first detection circuit, and the peripheral product is provided with a second sensing device and a second detection circuit;

when the first sensing signal of the peripheral product is detected, performing device code matching according to the first sensing signal and the peripheral product may include: when the change signal of the first sensing device is detected through the first detection circuit, determining to detect a first sensing signal of the peripheral product, and carrying out equipment code matching with the peripheral product according to the first sensing signal; the change signal of the first sensing device is caused by the trigger signal of a first trigger device in the peripheral product, and the first trigger device corresponds to the first sensing device;

correspondingly, when the second sensing signal of the signal receiver is detected, performing device code matching with the signal receiver according to the second sensing signal may include: when the change signal of the second sensing device is detected through the second detection circuit, determining that the second sensing signal of the signal receiver is detected, and carrying out equipment code matching with the signal receiver according to the second sensing signal; the change signal of the second sensing device is caused by the trigger signal of the second trigger device in the signal receiver, and the second trigger device corresponds to the second sensing device.

The embodiment of the application provides a specific implementation method of equipment code matching, namely, the equipment code matching is realized in a combined form of a detection circuit, an induction device and a trigger device.

Specifically, a first sensing device and a first detection circuit can be arranged in the signal receiver, a first triggering device can be arranged in the peripheral product, wherein the first triggering device in the peripheral product corresponds to the first sensing device in the signal receiver, the first triggering device is used for initiating a triggering signal to cause a change signal of the first sensing device, namely, the change of the first sensing device is caused by the change of the first triggering device, and the first detection circuit is used for detecting the change signal in the first sensing device, so that the signal receiver triggers the equipment code matching flow of the peripheral product. Based on the method, the device code matching flow of the signal receiver to the external product is as follows: when the peripheral product approaches or contacts the host equipment end to which the signal receiver belongs, the first trigger device automatically responds to the trigger signal aiming at the first sensing device; when the first sensing device in the signal receiver senses the trigger signal of the first trigger device, the first sensing device will cause the signal change, namely the change signal, at this time, the first detection circuit will naturally detect the change signal of the first sensing device, so that the signal receiver can determine that the first sensing signal of the peripheral product is detected, and perform device code on the peripheral product based on the first sensing signal.

Similarly, a second sensing device and a second detection circuit may be disposed in the peripheral product, and a second trigger device may be disposed in the signal receiver, where the second trigger device in the signal receiver corresponds to the second sensing device in the peripheral product, and the second trigger device is used to initiate a trigger signal to cause a change signal of the second sensing device, that is, a change of the second sensing device is caused by a change of the second trigger device, and the second detection circuit is used to detect the change signal in the second sensing device, so as to trigger a device code matching process of the peripheral product to the signal receiver. Based on the method, the equipment code matching flow of the peripheral product to the signal receiver is as follows: when the signal receiver approaches or contacts the peripheral product, the second trigger device automatically responds to the trigger signal aiming at the second sensing device; when the second sensing device in the peripheral product senses the trigger signal of the second trigger device, the second sensing device will cause the signal change, namely the change signal, at this time, the second detection circuit will naturally detect the change signal of the second sensing device, so that the peripheral product can determine that the second sensing signal of the signal receiver is detected, and perform device code on the signal receiver based on the second sensing signal.

Of course, the specific types of the above devices may be set by a technician according to actual situations or actual requirements, and the device code matching flow may be implemented, which is not limited by the present application. For example:

in one possible implementation, the first sensing device is a hall sensing device and the first triggering device is a magnet. Namely: when the external product is close to the signal receiver, the magnet in the external product can trigger the Hall sensing device in the signal receiver to change the switch state, so that the first detection circuit detects the change, and the external product is in the code matching state of the signal receiver.

In one possible implementation, the first sensing device is a contact charging device and the first triggering device is a power supply device. Namely: when the contact charging device of the signal receiver is connected with the power device of the peripheral product, the power device of the peripheral product provides an electric signal for the contact charging device of the signal receiver, so that the first detection circuit detects the electric signal, and the code matching state of the external product of the signal receiver is entered.

In one possible implementation, the first sensing device is a reed sensor and the first triggering device is a magnet. Namely: when the external product is close to the signal receiver, the magnet in the external product can trigger the reed pipe sensor in the signal receiver to change the switch state, so that the first detection circuit detects the change, and the external product is in the code matching state of the signal receiver.

In one possible implementation, the second sensing device is a hall sensing device and the second triggering device is a magnet. Namely: when the peripheral product is close to the signal receiver, the magnet in the signal receiver triggers the Hall sensing device in the peripheral product to change the switch state, so that the second detection circuit detects the change, and the code matching state of the peripheral product to the signal receiver is entered.

In one possible implementation, the second sensing device is a contact charging device and the second triggering device is a power device. Namely: when the contact charging device of the peripheral product is connected with the power device of the signal receiver, the power device of the signal receiver provides an electric signal for the contact charging device of the peripheral product, so that the second detection circuit detects the electric signal, and the code matching state of the peripheral product to the signal receiver is entered.

In one possible implementation, the second sensing device is a reed sensor and the second triggering device is a magnet. Namely: when the peripheral product is close to the signal receiver, the magnet in the signal receiver triggers the reed sensor in the peripheral product to change the switch state, so that the second detection circuit detects the change, and the code matching state of the peripheral product to the signal receiver is entered.

Based on the above various possible implementation forms, this embodiment provides a specific implementation manner as follows: the signal receiver is provided with a Hall sensing device and a circuit for detecting the Hall state, and the peripheral product is provided with a magnet, so that when the signal receiver is close to the peripheral product, the magnet triggers the Hall switch to change the state, so that the signal receiver detects the change of the Hall switch state, and the signal receiver immediately enters the code matching state. Meanwhile, the peripheral product is provided with a contact charging device and a circuit for detecting a charging signal, the signal receiver is connected with an external power supply, and when the peripheral product is charged through the signal receiver, the peripheral product can detect the change of the self charging signal, so that the peripheral product immediately enters a code matching state. Therefore, the peripheral products and the signal receiver enter a code matching state in the same time period, and enter a normal working state after the code matching is completed.

Furthermore, for the above various implementation forms, a code matching time threshold may be further set, and when the signal receiver and the peripheral product fail to complete the code matching process within the code matching time threshold, the signal receiver and the peripheral product can exit the code matching process, and the code matching process is considered as failed. The code time threshold value is not affected by implementation of the technical scheme, and is set by a technician according to actual requirements, which is not limited by the application.

In one embodiment of the application, the signal receiver is provided with a third sensing device, and the peripheral product is provided with a fourth sensing device;

when the first sensing signal of the peripheral product is detected, performing device code matching according to the first sensing signal and the peripheral product may include: when the trigger signal of the third trigger device is detected through the third sensor device, determining that a first sensor signal of the peripheral product is detected, and carrying out equipment code matching with the peripheral product according to the first sensor signal; the third trigger device is arranged in the peripheral product and corresponds to the third sensing device;

correspondingly, when the second sensing signal of the signal receiver is detected, performing device code matching with the signal receiver according to the second sensing signal may include: when the trigger signal of the fourth trigger device is detected through the fourth sensor device, determining that a second sensor signal of the signal receiver is detected, and performing equipment code matching with the signal receiver according to the second sensor signal; the fourth trigger device is arranged in the signal receiver and corresponds to the fourth sensing device.

The embodiment of the application provides a specific implementation method of equipment code matching, namely, the equipment code matching is realized in a combined mode of an induction device and a trigger device.

Specifically, a third sensing device may be provided in the signal receiver, and a third triggering device may be provided in the peripheral product, where the third triggering device in the peripheral product corresponds to the third sensing device in the signal receiver, and the third triggering device is used to initiate a triggering signal, so as to cause the third sensing device to detect the triggering signal, and further trigger the signal receiver to implement a device code matching process of the peripheral product. Based on the method, the device code matching flow of the signal receiver to the external product is as follows: when the peripheral product approaches or contacts the host equipment end to which the signal receiver belongs, the third trigger device automatically responds to the trigger signal aiming at the third sensing device; then, the third sensing device in the signal receiver detects the trigger signal, so that the signal receiver can determine that the first sensing signal of the peripheral product is detected, and perform device code matching on the peripheral product based on the first sensing signal.

Similarly, a fourth sensing device may be provided in the peripheral product, and a fourth triggering device may be provided in the signal receiver, where the fourth triggering device in the signal receiver corresponds to the fourth sensing device of the middle-outer product, and the fourth triggering device is used to initiate a triggering signal, so as to cause the fourth sensing device to detect the triggering signal, and further trigger the equipment code matching flow of the peripheral product to the signal receiver. Based on the method, the equipment code matching flow of the peripheral product to the signal receiver is as follows: when the signal receiver approaches or contacts the peripheral product, the fourth trigger device automatically responds to the trigger signal aiming at the fourth sensing device; then, the trigger signal is detected by the fourth sensing device in the peripheral product, so that the peripheral product can determine that the second sensing signal of the signal receiver is detected, and perform device code matching on the signal receiver based on the second sensing signal.

Of course, the specific types of the above devices may be set by a technician according to actual situations or actual requirements, and the device code matching flow may be implemented, which is not limited by the present application. For example:

in one possible implementation, the third sensing device is a power sensing device and the third triggering device is a wireless charger. Namely: when the peripheral product is close to the signal receiver, the wireless charger in the peripheral product can provide a radio signal for the power supply sensing device in the signal receiver, so that the power supply sensing device detects the radio signal, and the peripheral product enters a code matching state of the signal receiver to the peripheral product.

In one possible implementation, the third sensing device and the third triggering device are both radio frequency chips. Namely: when the peripheral product is close to the signal receiver, the internal radio frequency chip of the peripheral product can send radio frequency signals to the radio frequency chip in the signal receiver, so that the radio frequency chip in the signal receiver senses the radio frequency signals, and the peripheral product enters a code matching state of the peripheral product of the signal receiver.

In one possible implementation, the third sensing device and the third triggering device are both infrared transceivers. Namely: when the external product is close to the signal receiver, the infrared transceiver inside the external product can send an infrared signal to the infrared transceiver in the signal receiver, so that the infrared transceiver in the signal receiver senses the infrared signal, and the external product is in a code matching state by the signal receiver.

In one possible implementation, the fourth sensing device is a power sensing device and the fourth triggering device is a wireless charger. Namely: when the peripheral product is close to the signal receiver, the wireless charger in the signal receiver can provide a radio signal for the power supply sensing device in the peripheral product, so that the power supply sensing device detects the radio signal, and the code matching state of the peripheral product to the signal receiver is entered.

In one possible implementation, the fourth sensing device and the fourth triggering device are both radio frequency chips. Namely: when the peripheral product is close to the signal receiver, the radio frequency chip inside the signal receiver can send radio frequency signals to the radio frequency chip in the peripheral product, so that the radio frequency chip in the peripheral product senses the radio frequency signals, and the peripheral product enters the code matching state of the peripheral product to the signal receiver.

In one possible implementation, the fourth sensing device and the fourth triggering device are both infrared transceivers. Namely: when the peripheral product is close to the signal receiver, the infrared transceiver inside the signal receiver can send an infrared signal to the infrared transceiver in the peripheral product, so that the infrared transceiver in the peripheral product senses the infrared signal, and the peripheral product enters a code matching state of the peripheral product to the signal receiver.

Furthermore, for the above-mentioned various implementation forms, signal thresholds (signal threshold of radio signal, signal threshold of radio frequency signal, signal threshold of infrared signal, etc.) may be further set, that is, the signal receiver and the peripheral product may not directly enter the device code matching process of the opposite party when detecting the signal of the opposite party, but may further determine whether the detected signal strength reaches the above-mentioned signal threshold when detecting the corresponding signal, if so, the device code matching process of the opposite party may be entered. The signal threshold value is not affected by implementation of the technical scheme, and the signal threshold value is set by a technician according to actual requirements, which is not limited by the application.

The above embodiments provide several device code matching modes between the signal receiver and the peripheral product, which can be automatically implemented. It can be understood that in the practical application process, the user can select the signal receiver with the corresponding code matching mode and the peripheral product to perform the equipment code matching according to the requirement of the practical application scene.

In an embodiment of the present application, the performing device code matching with the peripheral product according to the first sensing signal may include: acquiring first code information of the peripheral product according to the first induction signal, and determining that the local code information of the signal receiver is consistent with the first code information and passes through equipment code of the peripheral product;

correspondingly, the device code matching according to the second sensing signal and the signal receiver may include: and acquiring second code matching information of the signal receiver according to the second sensing signal, and determining that the local code matching information of the peripheral product is identical to the second code matching information and the equipment code matching information of the signal receiver passes through.

It can be understood that the device code matching between the signal receiver and the peripheral product is essentially that the interaction and verification of the code matching information are carried out between the signal receiver and the peripheral product, and when the specific implementation is carried out, the signal receiver can send the code matching information (second code matching information) to the peripheral product, the peripheral product verifies the code matching information of the signal receiver end, and when the verification is passed, the completion of the device code matching is confirmed; the external product can send the own code matching information (first code matching information) to the signal receiver, the signal receiver checks the code matching information of the external product end, and the completion of equipment code matching is confirmed when the verification is passed.

In one embodiment of the present application, the device code matching method may further include: when the signal receiver passes through the code matching with the equipment of the peripheral product, the first code matching information is stored; and when the peripheral product passes through the device code matching of the signal receiver, the second code matching information is stored.

Specifically, when the signal receiver and the peripheral product complete equipment code matching and pass through, the opposite code matching information can be further stored, namely, the signal receiver stores the code matching information of the peripheral product, and the peripheral product stores the code matching information of the signal receiver so as to be directly called when the two follow-up code matching information is re-matched.

Based on the above two embodiments, please further refer to fig. 2 and fig. 3, fig. 2 is a flow chart of an automatic code matching method for a peripheral product terminal provided by the present application, and fig. 3 is a flow chart of an automatic code matching method for a signal receiver terminal provided by the present application.

For the peripheral product end, when the peripheral product end enters a signal detection state, real-time detection of an induction signal is carried out, when the induction signal is detected, the peripheral product end and a signal receiver to which the induction signal belongs enter a code matching state, under the code matching state, the peripheral product end and the signal receiver interact with each other to judge whether the code matching information passes or not, and when the code matching information passes the verification, the code matching information can be stored, and the code matching state is exited, namely the equipment code matching is completed, so that the communication flow of the peripheral product and the signal receiver can be entered.

For the signal receiver at the host equipment end, when the signal receiver enters a signal detection state, real-time detection of an induction signal is carried out, when the induction signal is detected, the signal receiver and a peripheral product to which the induction signal belongs enter a code matching state, under the code matching state, the signal receiver and the peripheral product interact with each other, whether the code matching information passes through verification is judged, and when the code matching information passes through the verification, the code matching information can be stored, and the code matching state is withdrawn, namely the equipment code matching is completed, so that the communication flow of the signal receiver and the peripheral product can be entered.

Therefore, in the scheme, when the host equipment end needs to perform equipment code matching with the peripheral product, the working state of the signal receiver can be started to be a signal detection state, meanwhile, the working state of the peripheral product is started to be a signal detection state, under the state, the signal receiver can detect the induction signal of the peripheral product in real time and automatically perform code matching with the peripheral product when detecting the induction signal of the peripheral product, the peripheral product can also detect the induction signal of the signal receiver in real time and automatically perform code matching with the signal receiver when detecting the induction signal of the signal receiver, and further, the equipment code matching between the host end and the peripheral product is realized.

The embodiment of the application provides a device code matching system.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a device code matching system provided by the present application, where the device code matching system may include:

the signal receiver 1 is configured to, in a signal detection state, perform device code matching with the peripheral product 2 according to a first sensing signal when the first sensing signal of the peripheral product 2 is detected;

and the peripheral product 2 is used for carrying out equipment code matching with the signal receiver 1 according to the second induction signal when the second induction signal of the signal receiver 1 is detected in the signal detection state.

Therefore, in the device code matching system provided by the embodiment of the application, when the host device end needs to perform device code matching with the peripheral product, the working state of the signal receiver can be started to be a signal detection state, meanwhile, the working state of the peripheral product is started to be a signal detection state, in the state, the signal receiver can detect the induction signal of the peripheral product in real time, and automatically code matching is performed on the induction signal of the signal receiver when the induction signal of the peripheral product is detected, and the peripheral product can also automatically code matching is performed on the signal receiver when the induction signal of the signal receiver is detected, so that the device code matching between the host end and the peripheral product is realized.

For the description of the system provided by the embodiment of the present application, please refer to the above method embodiment, and the description of the present application is omitted here.

In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The technical scheme provided by the application is described in detail. The principles and embodiments of the present application have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present application and its core ideas. It should be noted that it will be apparent to those skilled in the art that the present application may be modified and practiced without departing from the spirit of the present application.

Claims (18)

1. A device code matching method, comprising:

the method comprises the steps that when a signal receiver detects a first induction signal of a peripheral product in a signal detection state, equipment code matching is carried out according to the first induction signal and the peripheral product;

and in a signal detection state, when the peripheral product detects a second induction signal of the signal receiver, carrying out equipment code matching according to the second induction signal and the signal receiver.

2. The device code matching method according to claim 1, wherein the signal receiver is provided with a first sensing device and a first detection circuit, and the peripheral product is provided with a second sensing device and a second detection circuit;

when a first induction signal of a peripheral product is detected, performing equipment code matching according to the first induction signal and the peripheral product, wherein the equipment code matching comprises the following steps:

when the change signal of the first sensing device is detected through the first detection circuit, determining that a first sensing signal of the peripheral product is detected, and performing equipment code matching with the peripheral product according to the first sensing signal; the change signal of the first sensing device is caused by the trigger signal of a first trigger device in the peripheral product, and the first trigger device corresponds to the first sensing device;

correspondingly, when detecting the second induction signal of the signal receiver, performing device code matching with the signal receiver according to the second induction signal, including:

when the change signal of the second sensing device is detected through the second detection circuit, determining that the second sensing signal of the signal receiver is detected, and performing equipment code matching with the signal receiver according to the second sensing signal; wherein the change signal of the second sensing device is caused by the trigger signal of a second trigger device in the signal receiver, and the second trigger device corresponds to the second sensing device.

3. The apparatus code matching method of claim 2, wherein said first sensing device is a hall sensing device and said first triggering device is a magnet.

4. The apparatus code matching method of claim 2, wherein said first sensing device is a contact charging device and said first triggering device is a power device.

5. The apparatus code matching method of claim 2, wherein said first sensing device is a reed sensor and said first triggering device is a magnet.

6. The apparatus code matching method of claim 2, wherein said second sensing device is a hall sensing device and said second triggering device is a magnet.

7. The apparatus code matching method of claim 2, wherein said second sensing device is a contact charging device and said second triggering device is a power device.

8. The apparatus code matching method of claim 2, wherein said second sensing device is a reed sensor and said second triggering device is a magnet.

9. The device code matching method according to claim 1, wherein the signal receiver is provided with a third sensing device, and the peripheral product is provided with a fourth sensing device;

when a first induction signal of a peripheral product is detected, performing equipment code matching according to the first induction signal and the peripheral product, wherein the equipment code matching comprises the following steps:

when a trigger signal of a third trigger device is detected through the third sensor device, determining that a first sensor signal of the peripheral product is detected, and performing equipment code matching with the peripheral product according to the first sensor signal; the third trigger device is arranged in the peripheral product and corresponds to the third sensing device;

correspondingly, when detecting the second induction signal of the signal receiver, performing device code matching with the signal receiver according to the second induction signal, including:

when the trigger signal of the fourth trigger device is detected through the fourth sensor device, determining that a second sensor signal of the signal receiver is detected, and performing equipment code matching with the signal receiver according to the second sensor signal; the fourth trigger device is arranged in the signal receiver, and corresponds to the fourth sensing device.

10. The apparatus code matching method of claim 9, wherein the third sensing device is a power sensing device and the third triggering device is a wireless charger.

11. The apparatus code matching method of claim 9, wherein said third sensing device and said third triggering device are both radio frequency chips.

12. The apparatus code matching method of claim 9, wherein said third sensing device and said third triggering device are each infrared transceivers.

13. The apparatus code matching method of claim 9, wherein the fourth sensing device is a power sensing device and the fourth triggering device is a wireless charger.

14. The apparatus code matching method of claim 9, wherein said fourth sensing device and said fourth triggering device are both radio frequency chips.

15. The apparatus code matching method of claim 9, wherein said fourth sensing device and said fourth triggering device are each infrared transceivers.

16. The device pairing method according to any one of claims 1 to 15, wherein the performing device pairing with the peripheral product according to the first sensing signal includes:

acquiring first code matching information of the peripheral product according to the first induction signal, and determining that equipment code matching of the peripheral product passes when the local code matching information of the signal receiver is consistent with the first code matching information;

correspondingly, the device code matching according to the second sensing signal and the signal receiver comprises:

and acquiring second code matching information of the signal receiver according to the second induction signal, and determining that equipment code matching with the signal receiver passes when the local code matching information of the peripheral product is consistent with the second code matching information.

17. The device code matching method of claim 16, further comprising:

the signal receiver stores the first code information when the signal receiver passes through the code matching with the equipment of the peripheral product;

and when the peripheral product passes through the equipment code matching of the signal receiver, the second code matching information is stored.

18. A device code alignment system, comprising:

the signal receiver is used for carrying out equipment code matching according to the first induction signal and the peripheral product when the first induction signal of the peripheral product is detected in a signal detection state;

and the peripheral product is used for carrying out equipment code matching according to the second induction signal and the signal receiver when the second induction signal of the signal receiver is detected in the signal detection state.