WO2019114597A1 - Electronic cigarette and electronic cigarette activation system - Google Patents

Abstract

Disclosed is an electronic cigarette (100) and an electronic cigarette activation system (200). The electronic cigarette (100) comprises a main circuit (10) connected to an NFC circuit (20). The NFC circuit (20) comprises an NFC antenna (30) connected to an NFC storage module (40). The NFC storage module (40) is configured to store an anti-counterfeit label. The NFC antenna (30) is configured to acquire the anti-counterfeit label from the NFC storage module (40) when sensing a mobile device within a predefined area, and then sending the anti-counterfeit label to the mobile device, such that the mobile device verifies the anti-counterfeit label and provides a verification result. The NFC antenna (30) is further configured to receive the verification result from the mobile device and to send the verification result to the main circuit (10). The main circuit (10) is configured to set the current state to a locked state when verification is unsuccessful. The electronic cigarette (100) and the electronic cigarette activation system (200) can effectively identify counterfeit and sub-standard products.

Description

Electronic cigarette and electronic cigarette activation system

Technical field

The present application relates to the field of electronic cigarettes, and in particular to an electronic cigarette and electronic cigarette activation system.

Background technique

E-cigarette is an electronic product that imitates traditional cigarettes. It has the advantages of exquisite appearance, strong smoke output and taste. It produces steam by means of atomization. Compared with traditional cigarettes, electronic cigarettes are healthier and have a broader market prospect. With the rapid development of the electronic cigarette industry, some enterprises use illegal means to manufacture and sell counterfeit and shoddy electronic cigarettes, disrupting the market and damaging the rights and interests of the people.

At present, there are many high-imitation products that are illegally manufactured by unscrupulous merchants on the market, and there are many serious threats to users' life safety problems such as not booting, burning, charging, and fire. These high imitation products cannot be inspected and distinguished from the appearance, and existing anti-counterfeiting Means, there are two-dimensional code verification, appearance label verification, or verification code confirmation, etc., but these methods have been unable to stop illegal businesses.

Summary of the invention

The main purpose of the present application is to provide an electronic cigarette and electronic cigarette activation system, which aims to solve the existing technical problems of not being able to effectively identify counterfeit and shoddy products.

To achieve the above object, the present application provides an electronic cigarette including a main circuit and an NFC circuit connected to each other, the NFC circuit including an NFC antenna and an NFC memory module connected to each other;

 The NFC storage module is configured to store an anti-counterfeit identifier;

The NFC antenna is configured to extract the anti-counterfeit identifier from the NFC storage module when the mobile device is sensed to be within a preset range, and send the anti-counterfeit identifier to the mobile device to enable the mobile The device verifies the anti-counterfeiting identifier and feeds back the verification result;

The NFC antenna is further configured to receive a verification result fed back by the mobile device, and send the verification result to the main circuit;

The main circuit is configured to set the current state to a locked state when the verification result is that the verification is unsuccessful.

Optionally, the NFC circuit further includes an encryption and decryption chip, and the encryption and decryption chip is disposed between the NFC antenna and the NFC storage module.

Optionally, the NFC antenna is further configured to acquire a key sent by the mobile device when sensing that the mobile device is within a preset range, and the encryption and decryption chip uses the key pair to perform the anti-counterfeiting The identification is encrypted and the encrypted anti-counterfeit identification is sent to the mobile device.

Optionally, the NFC circuit further includes an NFC main control chip;

The encryption/decryption chip is configured to acquire model information of the NFC main control chip, encrypt model information of the NFC main control chip by using the key, and save the encrypted NFC encryption information in the NFC. The storage module simultaneously transmits the NFC encrypted information to the main circuit.

Optionally, the main circuit further includes a main chip;

The main circuit is further configured to receive NFC encryption information sent by the NFC circuit, acquire model information of the main chip, encrypt model information of the main chip by using the key, and generate the encryption The main circuit encryption information is stored locally, and the main circuit encryption information is sent to the NFC storage module for storage.

Optionally, the main circuit is further configured to acquire, in real time, main circuit encryption information and NFC encryption information in the NFC storage module;

When the locally saved encryption information of the main circuit and the main circuit encryption information in the NFC storage module are unsuccessful, the current state is set to a locked state;

When the locally saved NFC encryption information is not successfully matched with the NFC encryption information in the NFC storage module, the current state is set to the locked state.

Optionally, the NFC antenna is further configured to acquire user usage parameter information sent by the main circuit, and send the user usage parameter information to the mobile device.

Optionally, the NFC antenna is further configured to acquire user usage parameter information sent by the main circuit, encrypt the user usage parameter information by using the key, and use the encrypted user usage parameter information in the pre-preparation Send to the mobile device within the range.

Optionally, the NFC circuit is further configured to receive configuration information of the mobile device within a preset range, and send the configuration information to the main circuit.

Moreover, to achieve the above object, the present application also proposes an electronic cigarette activation system including a mobile device and an electronic cigarette as described above.

The NFC circuit in this embodiment is provided with an NFC antenna and an NFC storage module. The NFC storage module stores an anti-counterfeit identifier, and the NFC antenna can send the anti-counterfeit identifier to the mobile when sensing that the mobile device is within a preset range. And the device is configured to enable the mobile device to verify the anti-counterfeit identifier, and the main circuit sets the current state to a locked state when the verification result is that the verification is unsuccessful, because the uniqueness of the anti-counterfeit identifier stored in the NFC storage module is It can avoid the sale of counterfeit and shoddy products as genuine products by lawless elements, so as to avoid the danger of counterfeit and shoddy products posing to users.

DRAWINGS

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings to be used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present application, and other drawings can be obtained according to the structures shown in the drawings without any creative work for those skilled in the art.

1 is a circuit configuration diagram of an embodiment of an electronic cigarette of the present application;

2 is a circuit structural diagram of another embodiment of the electronic cigarette of the present application;

3 is a schematic flow chart of an electronic cigarette user activation description of the present application;

4 is a circuit structural diagram of still another embodiment of the electronic cigarette of the present application;

FIG. 5 is a schematic structural view of an electronic cigarette activation system of the present application.

Description of the reference numerals:

Label	name	Label	name
100	e-cigarette	50	Encryption chip
10	The main circuit	60	NFC master chip
20	NFC circuit	70	main chip
30	NFC antenna	200	Electronic cigarette activation system
40	NFC storage module

The implementation, functional features and advantages of the present application will be further described with reference to the accompanying drawings.

Detailed ways

The technical solutions in the embodiments of the present application are clearly and completely described in the following with reference to the drawings in the embodiments of the present application. It is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present application without departing from the inventive scope are the scope of the present application.

It should be noted that if there is a directional indication (such as up, down, left, right, front, back, ...) in the embodiment of the present application, the directional indication is only set to explain in a certain posture (as shown in the figure). The relative positional relationship between the components, the motion situation, and the like, if the specific posture changes, the directional indication also changes accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present application, the description of the "first", "second", etc. is set for the purpose of description only, and is not to be construed as indicating or implying Its relative importance or implicit indication of the number of technical features indicated. Thus, features defining "first" or "second" may include at least one of the features, either explicitly or implicitly. In addition, the technical solutions between the various embodiments may be combined with each other, but must be based on the realization of those skilled in the art, and when the combination of the technical solutions is contradictory or impossible to implement, it should be considered that the combination of the technical solutions does not exist. Nor is it within the scope of protection required by this application.

Referring to FIG. 1, a circuit configuration diagram of an embodiment of an electronic cigarette of the present application is proposed. The electronic cigarette includes a main circuit 10 and an NFC circuit 20 connected to each other, and the NFC circuit 20 includes an NFC antenna 30 and an NFC storage module 40 connected to each other. ;

In a specific implementation, the main circuit 10 is connected to the NFC circuit 20 through a data bus, and the NFC antenna 30 is electrically connected to the NFC memory module 40. The NFC circuit 20 further includes an NFC chip, and the NFC chip passes through the The data bus receives data of the main circuit 10.

The NFC storage module 40 is configured to store an anti-counterfeit identifier;

It should be noted that after the electronic cigarette is shipped, a globally unique NFC chip will be allocated to each electronic cigarette, and the ID number corresponding to the NFC chip will be input into a database for storage, and the user is using the product. The NFC chip must be activated before it can be used, and the same NFC chip can only be activated once. When activated, the system will prompt the user that the current ID number has been used and cannot be activated, thus preventing counterfeit and shoddy products from entering the market.

In a specific implementation, the NFC antenna 30 of the electronic cigarette receives the anti-counterfeit identifier sent by the mobile device, and stores the anti-counterfeit identifier in the NFC storage module 40, so that the electronic cigarette can be used by the anti-counterfeiting identifier. Verifying that, when the electronic cigarette is activated, the NFC antenna 30 transmits the anti-counterfeit identifier stored in the NFC storage module 40 to the mobile device, and the mobile device acquires the obtained anti-counterfeiting identifier and the entered in the system database. The anti-counterfeiting logo is matched. After the matching is successful, it indicates that the currently used electronic cigarette is a genuine product.

It can be understood that, when the mobile device matches the obtained anti-counterfeiting identifier with the entered anti-counterfeiting identifier in the system database, after the matching is unsuccessful, it indicates that the currently used electronic cigarette is a counterfeit product, in this case, The mobile device sends feedback information to the NFC antenna 30, which sends the feedback message to the main circuit 10 via an NFC chip.

After receiving the feedback information sent by the NFC antenna 30, the main circuit 10 performs corresponding processing according to the feedback information. For example, after receiving the verification pass message, the main circuit 10 may present the current electronic cigarette. The state is set to an active state, and after the main circuit 10 receives the message of verification failure, the current state of the electronic cigarette can be set to the locked state.

It should be noted that the mobile device may be a mobile phone, a tablet, and a personal computer with an NFC function, and may be other mobile devices that can achieve the same function, which is not limited in this embodiment.

The NFC antenna 30 is configured to extract the anti-counterfeit identifier from the NFC storage module 40 when the mobile device is sensed to be within a preset range, and send the anti-counterfeit identifier to the mobile device to enable the The mobile device verifies the anti-counterfeiting identifier and feeds back the verification result;

In a specific implementation, the NFC antenna 30 may be composed of a circuit coil made by a winding or printing or etching process and a ferrite material having anti-interference capability, and the NFC chip and the NFC memory module 40 are connected by wires. The NFC chip can be configured to encrypt and decrypt data transmitted and received by the NFC antenna 30, and the NFC storage module 40 can be configured to store data transmitted and received by the NFC antenna 30.

When the NFC antenna 30 receives the response information of the mobile device within the preset range by using the circuit coil, the anti-counterfeit identifier in the NFC storage module 40 is sent to the mobile device by the generated electrical signal, so that the mobile device can be The anti-counterfeit identification is verified, and the verification result is fed back.

The NFC antenna 30 is further configured to receive a verification result fed back by the mobile device, and send the verification result to the main circuit 10;

The main circuit 10 is configured to set the current state to a locked state when the verification result is that the verification is unsuccessful.

The main circuit 10 is further configured to set the current state to an active state when the verification result is that the verification is successful.

It should be noted that the activation state is that the electronic cigarette is in a working state, for example, the smoke amount setting and the use time setting may be performed on the electronic cigarette, and the locking state is that the electronic cigarette is in an unusable state or has Functional limitations, time limits, etc. cannot be in a normal working state.

The NFC circuit 20 in this embodiment is provided with an NFC antenna 30 and an NFC storage module 40. The NFC storage module 40 stores an anti-counterfeit identifier. The NFC antenna 30 can detect the anti-counterfeit identifier when the mobile device is within a preset range. Sending to the mobile device, so that the mobile device verifies the anti-counterfeit identifier, and the main circuit 10 sets the current state to a locked state when the verification result is that the verification is unsuccessful, because the NFC storage module 40 stores The uniqueness of the anti-counterfeiting logo can prevent the counterfeit products from selling fake and shoddy products as genuine products on the market, thus avoiding the safety hazards of counterfeit and shoddy products.

Referring to FIG. 2, a circuit structure diagram of another embodiment of the electronic cigarette of the present application is provided. The NFC circuit 20 further includes an encryption and decryption chip 50. The encryption and decryption chip 50 is disposed between the NFC antenna 30 and the NFC storage module 40. .

In a specific implementation, the NFC circuit 20 has an NFC storage module 40, an NFC antenna 30, and an encryption and decryption chip 50. After receiving the signal, the NFC antenna 30 decrypts by the encryption/decryption chip 50, and finally sends the received data to the electronic cigarette main circuit 10, and the electronic cigarette main circuit 10 performs identity verification based on the data. After the verification is passed, the electronic cigarette main circuit 10 transmits the data content required by the user to the encryption/decryption chip 50 through the data bus in a high speed state, and the encryption/decryption chip 50 encrypts the data to be transmitted, and then sends out through the NFC antenna 30. Give mobile devices. The key and identity information at the time of NFC encryption and decryption are stored in the NFC storage module 40.

The NFC antenna 30 is further configured to acquire a key sent by the mobile device when the mobile device is in a preset range, and the encryption/decryption chip 50 performs the anti-counterfeiting identifier by using the key. Encrypted and sent the encrypted anti-counterfeit identification to the mobile device.

It should be noted that the NFC storage module 40 stores a key, and the encryption/decryption chip 50 encrypts and decrypts the data of the external mobile device received by the NFC antenna 30 through the key, thereby ensuring the security of data transmission.

The encryption/decryption chip 50 encrypts and encrypts the data received on the one hand by the NFC antenna 30, and on the other hand, the encryption/decryption chip 50 is assigned a globally unique chip ID, thereby ensuring the electronic cigarette. Guaranteed to be unique when performing verification.

In a specific implementation, the electronic cigarette uses a globally unique NFC chip, and the activation verification of the electronic cigarette can be verified by the activation code of the chip, as shown in the schematic diagram of the electronic cigarette user activation description as described in FIG. 3 . After the user purchases the e-cigarette, they need to register to activate. After the user installs the battery for the electronic cigarette, the system prompts the user to activate the product. There are various methods for the activation method. The first method is that the user can input the multi-digit activation code displayed on the electronic cigarette on the activation registration page, and the second method directly uses the NFC. Mode activation. If it is a counterfeit product, the activation will not be successful, and the authenticity can only be activated once. Therefore, the user can purchase genuine electronic cigarette products.

It should be noted that the electronic cigarette further includes a battery, and the battery is connected to the main circuit 10 and the NFC circuit 20 to supply power to the main circuit 10 and the NFC circuit 20.

It can be understood that the NFC circuit 20 is installed on the electronic cigarette. The NFC circuit 20 includes an NFC antenna 30 and the NFC storage module 40. When the user needs to activate the electronic cigarette, the user can activate the mobile device through the website. The code is verified, and the mobile device application (Application, APP) can be used for online verification, and the mobile device's APP is opened to the product activation interface, and the mobile device is brought close to the preset range of the electronic cigarette, that is, close to the electronic cigarette. The sensing area is activated by the sensing area.

In the technical solution provided by the embodiment, the NFC circuit 20 further includes an encryption and decryption chip 50. The encryption and decryption chip 50 is disposed between the NFC antenna 30 and the NFC storage module 40, and the NFC antenna 30 is inductive. Obtaining a key sent by the mobile device when the mobile device is within a preset range, the encryption/decryption chip 50 encrypts the anti-counterfeit identifier by using the key, and sends the encrypted anti-counterfeit identifier to the The mobile device ensures the security of data transmission.

Referring to FIG. 4, a circuit structure diagram of still another embodiment of the electronic cigarette 100 of the present application is provided, and the NFC circuit 20 further includes an NFC main control chip 60;

The encryption/decryption chip 50 is configured to acquire the model information of the NFC main control chip 60, encrypt the model information of the NFC main control chip 60 by using the key, and save the encrypted NFC encryption information in the The NFC storage module 40 simultaneously transmits the NFC encrypted information to the main circuit 10.

It should be noted that a master control chip is allocated in the encryption/decryption chip 50, and the chip model information of the master control chip is obtained, and the chip model information is encrypted according to the chip model, and the encrypted chip is obtained. The model information is stored in the NFC storage module 40, thereby ensuring the security of data storage and being difficult to be changed.

The main circuit 10 further includes a main chip 70;

The main circuit 10 is further configured to receive the NFC encryption information sent by the NFC circuit 20, acquire the model information of the main chip 70, and encrypt the model information of the main chip 70 by using the key, and The encrypted information of the main circuit 10 generated after the encryption is saved locally, and the encrypted information of the main circuit 10 is sent to the NFC storage module 40 for storage.

In a specific implementation, the main circuit 10 can also acquire the model information of the main chip 70, encrypt the model information by using a serial number, and send the encrypted model information to the NFC storage module 40 for storage. It is ensured that the main circuit 10 and the NFC circuit 20 have the same verification data.

The main circuit 10 is further configured to acquire the main circuit 10 encryption information and the NFC encryption information in the NFC storage module 40 in real time;

When the encryption information of the main circuit 10 saved locally and the encryption information of the main circuit 10 in the NFC storage module 40 are unsuccessful, the current state is set to a locked state;

When the locally saved NFC encryption information is not successfully matched with the NFC encryption information in the NFC storage module 40, the current state is set to the locked state.

Since the same encrypted message is stored in both the main circuit 10 and the NFC circuit 20, thereby ensuring that the message is not serially changed, and the main circuit 10 can be connected to the NFC circuit 20 via the bus, the state of the NFC circuit 20 can be monitored in real time. In a case where the data in the NFC storage module 40 does not coincide with the data in the main circuit 10, the main circuit 10 can set the current state to a locked state, so that the data in the electronic cigarette is changed in series. To ensure that the electronic cigarette will not be used.

In this embodiment, the mobile device sends the generated identity data to the electronic cigarette main circuit 10 through the NFC, and after the electronic cigarette main circuit 10 verifies the completion data, the key configuration of the NFC circuit 20 is started, and the electronic cigarette main chip chip string is started. No. encryption, NFC chip ID number encryption and other operations. After the operation is completed, the encrypted data is stored in the electronic cigarette main circuit 10 and the NFC storage module 40. The electronic cigarette main circuit 10 monitors the NFC chip in real time. If the data of the NFC circuit 20 is found to be mismatched, the electronic cigarette will be locked and the user cannot use it, thereby preventing the illegal elements from stealing user data.

The NFC antenna 30 is further configured to acquire user usage parameter information sent by the main circuit 10, and send the user usage parameter information to the mobile device.

It should be noted that the NFC main circuit 10 can acquire usage data of the user, and send the usage data of the user to the NFC circuit 20 through a data bus, and the NFC circuit 20 encrypts the received user data by using a key. The data is transmitted to the mobile device through the NFC antenna 30, thereby ensuring the security of data transmission.

It can be understood that the NFC main circuit 10 can record usage data of the user, such as the usage time of the user in the most recent month, so that the user's usage time can be used, and the user's usage time can be processed, so that The user's health status is handled.

The NFC antenna 30 is further configured to acquire user usage parameter information sent by the main circuit 10, encrypt the user usage parameter information by using the key, and use the encrypted user usage parameter information in a preset range. Sent to the mobile device.

The NFC circuit 20 is further configured to receive configuration information of the mobile device within a preset range, and send the configuration information to the main circuit 10.

It should be noted that the configuration information may be that the mobile device sends configuration information to the NFC antenna 30 through NFC, and the NFC antenna 30 sends the configuration information to the main circuit 10, so that the main circuit is 10, according to the configuration information, the current state is set correspondingly, for example, the user sets the e-cigar usage time by the mobile device to one hour per day, and the mobile device sends the one-hour configuration time to the NFC antenna 30 through the NFC, The NFC antenna 30 transmits the configuration information to the main circuit 10, so that the main circuit 10 manages the current state according to the 1-hour configuration time, and can calculate the daily usage time of the user during the use time. After more than one hour, the current usage status is locked, so that the user can be configured according to the needs of the user to improve the user experience.

In this embodiment, the encryption/decryption chip 50 is disposed between the NFC antenna 30 and the NFC storage module 40, and decrypts and encrypts data received and transmitted by the NFC antenna 30 and data in the NFC storage module 40. To ensure the security of data transmission.

Furthermore, the present application also proposes an electronic cigarette activation system comprising a mobile device and an electronic cigarette as described above.

A schematic diagram of the structure of the electronic cigarette activation system shown in FIG. 5, the electronic cigarette activation system 200 includes a mobile device 300 and an electronic cigarette 100 as described above.

The above is only an alternative embodiment of the present application, and thus does not limit the scope of the patent application, and the equivalent structure or equivalent process transformation of the specification and the drawings of the present application, or directly or indirectly applied to other related technologies. The fields are all included in the scope of patent protection of this application.

Claims (20)

1. An electronic cigarette, wherein the electronic cigarette comprises a main circuit and an NFC circuit connected to each other, the NFC circuit comprising an NFC antenna and an NFC storage module connected to each other;

    The NFC storage module is configured to store an anti-counterfeit identifier;

   The NFC antenna is configured to extract the anti-counterfeit identifier from the NFC storage module when the mobile device is sensed to be within a preset range, and send the anti-counterfeit identifier to the mobile device to enable the mobile The device verifies the anti-counterfeiting identifier and feeds back the verification result;

   The NFC antenna is further configured to receive a verification result fed back by the mobile device, and send the verification result to the main circuit;

   The main circuit is configured to set the current state to a locked state when the verification result is that the verification is unsuccessful.
2. The electronic cigarette of claim 1, wherein the NFC circuit further comprises an encryption and decryption chip, the encryption and decryption chip being disposed between the NFC antenna and the NFC storage module.
3. The electronic cigarette of claim 2, wherein the NFC antenna is further configured to acquire a key sent by the mobile device when the mobile device is sensed to be within a preset range, and the encryption and decryption chip passes The key encrypts the anti-counterfeit identifier and sends the encrypted anti-counterfeit identifier to the mobile device.
4. The electronic cigarette of claim 3, wherein the NFC circuit further comprises an NFC master chip;

   The encryption/decryption chip is configured to acquire model information of the NFC main control chip, encrypt model information of the NFC main control chip by using the key, and save the encrypted NFC encryption information in the NFC. The storage module simultaneously transmits the NFC encrypted information to the main circuit.
5. The electronic cigarette of claim 4, wherein the main circuit further comprises a main chip;

   The main circuit is further configured to receive NFC encryption information sent by the NFC circuit, acquire model information of the main chip, encrypt model information of the main chip by using the key, and generate the encryption The main circuit encryption information is stored locally, and the main circuit encryption information is sent to the NFC storage module for storage.
6. The electronic cigarette according to claim 5, wherein the main circuit is further configured to acquire main circuit encryption information and NFC encryption information in the NFC storage module in real time, and the main circuit encryption information and NFC saved locally When the matching of the main circuit encryption information in the storage module is unsuccessful, the current state is set to the locked state, and when the locally saved NFC encryption information and the NFC encryption information in the NFC storage module are unsuccessful, the current state is set to Locked state.
7. The electronic cigarette according to claim 1, wherein the NFC antenna is further configured to acquire user usage parameter information transmitted by the main circuit, and send the user usage parameter information to the mobile device.
8. The electronic cigarette according to claim 7, wherein the NFC antenna is further configured to acquire user usage parameter information sent by the main circuit, encrypt the user usage parameter information by using the key, and encrypt the data. The subsequent user sends the parameter information to the mobile device within a preset range.
9. The electronic cigarette of claim 1, wherein the NFC circuit is further configured to receive configuration information of the mobile device within a preset range and transmit the configuration information to the main circuit.
10. An electronic cigarette activation system, wherein the electronic cigarette activation system comprises a mobile device and an electronic cigarette, the electronic cigarette comprising a main circuit and an NFC circuit connected to each other, the NFC circuit comprising an NFC antenna and an NFC storage module connected to each other ;

    The NFC storage module is configured to store an anti-counterfeit identifier;

    The NFC antenna is configured to extract the anti-counterfeit identifier from the NFC storage module when the mobile device is sensed to be within a preset range, and send the anti-counterfeit identifier to the mobile device to enable the mobile The device verifies the anti-counterfeiting identifier and feeds back the verification result;

    The NFC antenna is further configured to receive a verification result fed back by the mobile device, and send the verification result to the main circuit;

    The main circuit is configured to set the current state to a locked state when the verification result is that the verification is unsuccessful.
11. The electronic cigarette activation system of claim 10, wherein the NFC circuit further comprises an encryption and decryption chip, the encryption and decryption chip being disposed between the NFC antenna and the NFC storage module.
12. The electronic cigarette activation system according to claim 11, wherein the NFC storage module stores a key, and the encryption/decryption chip encrypts and decrypts data of the external mobile device received by the NFC antenna 30 through the key.
13. The electronic cigarette activation system according to claim 10, wherein said main circuit is connected to said NFC circuit via a data bus, said NFC antenna is electrically connected to said NFC memory module, wherein said NFC circuit further comprises an NFC chip, The NFC chip receives data of the main circuit through the data bus.
14. The electronic cigarette activation system of claim 10, wherein the NFC antenna of the electronic cigarette receives an anti-counterfeit identification transmitted by the mobile device and stores the anti-counterfeiting identification in the NFC storage module.
15. The electronic cigarette activation system according to claim 10, wherein said main circuit is further configured to set the current state to an active state when said verification result is that the verification is successful.
16. The electronic cigarette activation system according to claim 10, wherein said NFC antenna is composed of a circuit coil made by a winding or printing or etching process and an anti-interference ferrite material, and said NFC chip is connected to said N through said wire NFC storage module.
17. The electronic cigarette activation system according to claim 10, wherein said NFC chip is arranged to encrypt and decrypt data transmitted and received by said NFC antenna.
18. The electronic cigarette activation system of claim 10, wherein the NFC storage module is configurable to store data transmitted and received by the NFC antenna.
19. The electronic cigarette activation system according to claim 10, wherein, when the NFC antenna receives the response information of the mobile device within a preset range by the circuit coil, the anti-counterfeit identifier in the NFC storage module is sent to the electrical signal by the generated electrical signal to The mobile device is configured to enable the mobile device to verify the anti-counterfeit identification and feed back the verification result.
20. The electronic cigarette activation system according to claim 10, wherein said electronic cigarette further comprises a battery, said battery being connected to said main circuit and said NFC circuit for supplying power to said main circuit and said NFC circuit.