CN115016625A

Movatterモバイル変換

Info

Publication number: CN115016625A
Application number: CN202210614155.9A
Authority: CN
Inventors: 谢亚兵
Original assignee: Vivo Mobile Communication Co Ltd
Current assignee: Vivo Mobile Communication Co Ltd
Priority date: 2022-05-31
Filing date: 2022-05-31
Publication date: 2022-09-06

Abstract

The embodiment of the application discloses an electronic equipment control method, electronic equipment and an electronic equipment set, wherein the electronic equipment comprises a control chip, an NFC antenna, an application processor, a power management chip and a battery, the control chip is respectively connected with the NFC antenna, the power management chip and the application processor, the power management chip is respectively connected with the battery and the application processor, and the method comprises the following steps: when the electronic equipment is in a power-off state, the control chip receives a power-on request sent by NFC equipment through the NFC antenna; and the control chip controls the power management chip to supply power to the application processor based on the starting request so as to start the electronic equipment.

Description

Translated fromChinese

电子设备控制方法、电子设备及电子设备套装Electronic equipment control method, electronic equipment and electronic equipment set

技术领域technical field

本公开涉及电子领域，更具体地，涉及一种电子设备控制方法、电子设备及电子设备套装。The present disclosure relates to the field of electronics, and more particularly, to an electronic device control method, an electronic device, and an electronic device package.

背景技术Background technique

智能终端产品例如手机生产测试后，会关机并放入包装盒内，包装盒外部还有塑封、防拆、防伪标签以确保手机完整、不受污损。手机一旦包装好以后，如果不拆开包装盒是无法实现开机的，但是，当出现有开机需求的情况下，操作人员必须拆开包装盒将手机拿出来并触发手机开机。然而，拆开手机进行操作不仅会污损手机，重新包装也会带来材料和人工成本，甚至部分包装盒有拆解痕迹后造成用户不满。Smart terminal products such as mobile phones will be shut down and put into the packaging box after production and testing. There are plastic sealing, tamper-proof and anti-counterfeiting labels on the outside of the packaging box to ensure that the mobile phone is complete and free from contamination. Once the mobile phone is packaged, it cannot be turned on without opening the packaging box. However, when there is a need to turn on the phone, the operator must open the packaging box to take out the mobile phone and trigger the mobile phone to turn on. However, disassembling the mobile phone for operation will not only contaminate the mobile phone, but also bring material and labor costs to repackaging, and even some of the packaging boxes have dismantling traces, causing user dissatisfaction.

发明内容SUMMARY OF THE INVENTION

本申请实施例提供一种电子设备控制方法，以解决现有技术中不拆开包装盒无法触发电子设备开机的的问题。The embodiment of the present application provides a control method for an electronic device, so as to solve the problem in the prior art that the electronic device cannot be triggered to start up without opening the packaging box.

第一方面，本申请实施例提供一种电子设备控制方法，应用于电子设备，所述电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，所述控制芯片分别与所述NFC天线、所述电源管理芯片和所述应用处理器连接，所述电源管理芯片分别与所述电池和所述应用处理器连接，所述方法包括：In a first aspect, an embodiment of the present application provides an electronic device control method, which is applied to an electronic device. The electronic device includes a control chip, an NFC antenna, an application processor, a power management chip, and a battery. The NFC antenna, the power management chip and the application processor are connected, and the power management chip is respectively connected with the battery and the application processor, and the method includes:

在所述电子设备处于关机状态的情况下，所述控制芯片通过所述NFC天线接收NFC设备发送的开机请求；When the electronic device is in a shutdown state, the control chip receives a power-on request sent by the NFC device through the NFC antenna;

所述控制芯片基于所述开机请求控制所述所述电源管理芯片为所述应用处理器供电，以使所述电子设备开机。The control chip controls the power management chip to supply power to the application processor based on the power-on request, so as to power on the electronic device.

第二方面，本申请实施例还提供一种电子设备，所述电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，所述控制芯片分别与所述NFC天线、所述电源管理芯片和所述应用处理器连接，所述电源管理芯片分别与所述电池和所述应用处理器连接，In a second aspect, an embodiment of the present application further provides an electronic device, the electronic device includes a control chip, an NFC antenna, an application processor, a power management chip and a battery, the control chip is respectively connected with the NFC antenna, the power supply A management chip is connected to the application processor, and the power management chip is connected to the battery and the application processor, respectively,

其中，所述控制芯片在所述电子设备处于关机状态的情况下，通过所述NFC天线接收外部的开机请求；Wherein, when the electronic device is in a shutdown state, the control chip receives an external power-on request through the NFC antenna;

所述控制芯片基于所述开机请求输出低电平信号；The control chip outputs a low-level signal based on the power-on request;

所述电源管理芯片在检测到所述低电平信号的情况下，为所述应用处理器供电，以使所述电子设备开机。When the power management chip detects the low-level signal, power is supplied to the application processor, so as to turn on the electronic device.

第三方面，本申请实施例还提供一种电子设备套装，所述电子设备套装包括：In a third aspect, the embodiment of the present application further provides an electronic equipment package, the electronic equipment package includes:

如以上第二方面所述的电子设备；以及，包装盒，所述电子设备设置于所述包装盒内。The electronic device according to the second aspect above; and, a packaging box, in which the electronic device is provided.

在本申请实施例中，其提供一种电子设备控制方法，该电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，在电子设备处于关机状态的情况下，控制芯片会通过NFC天线接收NFC设备发送的开机请求，并基于开机请求控制所述电源管理芯片为应用处理器供电，以使电子设备开机，使得电子设备在处于包装盒内的情况下也能实现开机，降低了材料成本和人力成本，提高用户体验。In the embodiment of the present application, a method for controlling an electronic device is provided. The electronic device includes a control chip, an NFC antenna, an application processor, a power management chip and a battery. When the electronic device is in a shutdown state, the control chip will pass the The NFC antenna receives the power-on request sent by the NFC device, and controls the power management chip to supply power to the application processor based on the power-on request, so that the electronic device can be powered on, so that the electronic device can also be powered on when it is in the packaging box, reducing the power consumption. Material cost and labor cost, improve user experience.

附图说明Description of drawings

被结合在说明书中并构成说明书的一部分的附图示出了本公开的实施例，并且连同其说明一起用于解释本发明的原理。The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the present disclosure and together with the description serve to explain the principles of the invention.

图1为本申请实施例提供的电子设备的结构示意图；1 is a schematic structural diagram of an electronic device provided by an embodiment of the present application;

图2为本申请另一实施例提供的电子设备的结构示意图；FIG. 2 is a schematic structural diagram of an electronic device provided by another embodiment of the present application;

图3为本申请实施例提供的电子设备控制方法的流程示意图；3 is a schematic flowchart of an electronic device control method provided by an embodiment of the present application;

图4为本申请实施例提供的控制芯片的结构示意图；FIG. 4 is a schematic structural diagram of a control chip provided by an embodiment of the present application;

图5为本申请一个例子的电子设备控制方法的流程示意图；5 is a schematic flowchart of an electronic device control method according to an example of the application;

图6为本申请另一例子的电子设备控制方法的流程示意图；6 is a schematic flowchart of a method for controlling an electronic device according to another example of the present application;

图7为本申请另一例子的电子设备控制方法的流程示意图；7 is a schematic flowchart of a method for controlling an electronic device according to another example of the present application;

图8为本申请另一例子的电子设备控制方法的流程示意图。FIG. 8 is a schematic flowchart of a method for controlling an electronic device according to another example of the present application.

具体实施方式Detailed ways

下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚地描述，显然，所描述的实施例是本申请一部分实施例，而不是全部的实施例。基于本申请中的实施例，本领域普通技术人员获得的所有其他实施例，都属于本申请保护的范围。The technical solutions in the embodiments of the present application will be clearly described below with reference to the accompanying drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art fall within the protection scope of this application.

本申请的说明书和权利要求书中的术语“第一”、“第二”等是用于区别类似的对象，而不用于描述特定的顺序或先后次序。应该理解这样使用的数据在适当情况下可以互换，以便本申请的实施例能够以除了在这里图示或描述的那些以外的顺序实施，且“第一”、“第二”等所区分的对象通常为一类，并不限定对象的个数，例如第一对象可以是一个，也可以是多个。此外，说明书以及权利要求中“和/或”表示所连接对象的至少其中之一，字符“/”，一般表示前后关联对象是一种“或”的关系。The terms "first", "second" and the like in the description and claims of the present application are used to distinguish similar objects, and are not used to describe a specific order or sequence. It is to be understood that the data so used are interchangeable under appropriate circumstances so that the embodiments of the present application can be practiced in sequences other than those illustrated or described herein, and distinguish between "first", "second", etc. The objects are usually of one type, and the number of objects is not limited. For example, the first object may be one or more than one. In addition, "and/or" in the description and claims indicates at least one of the connected objects, and the character "/" generally indicates that the associated objects are in an "or" relationship.

在介绍本申请实施例的电子设备控制方法之前，先对本申请实施例的电子设备进行简单介绍。如图1所示，为本申请实施例提供的一种电子设备10的结构示意图。该电子设备10可以为手机、平板电脑、笔记本电脑、掌上电脑、或者可穿戴设备等。Before introducing the electronic device control method of the embodiment of the present application, the electronic device of the embodiment of the present application is briefly introduced. As shown in FIG. 1 , it is a schematic structural diagram of anelectronic device 10 according to an embodiment of the present application. Theelectronic device 10 may be a mobile phone, a tablet computer, a notebook computer, a palmtop computer, a wearable device, or the like.

该电子设备10包括控制芯片110、NFC天线120、应用处理器130、电源管理芯片140和电池150。所述控制芯片110分别与所述NFC天线120、所述应用处理器130和所述电源管理芯片140连接，所述电源管理芯片140分别与所述电池150和所述应用处理器130连接。Theelectronic device 10 includes acontrol chip 110 , anNFC antenna 120 , anapplication processor 130 , apower management chip 140 and abattery 150 . Thecontrol chip 110 is respectively connected to theNFC antenna 120 , theapplication processor 130 and thepower management chip 140 , and thepower management chip 140 is respectively connected to thebattery 150 and theapplication processor 130 .

以上应用处理器130负责电子设备10的软件系统运行、电子设备10的功能实现、外围器件的控制，是整个软件系统的控制中枢。该应用处理器130在电子设备10处于关机状态的情况下是不工作的，无法接收或处理任何信号。在一个实施例中，如图2所示，应用处理器130包括常开协处理器(Always On Sub Processor，AOSP)131，在电子设备10处于关机状态的情况下，电源管理芯片(PowerManagement IC，PMIC)140持续为常开协处理器AOSP供电，即该常开协处理器AOSP在电子设备10处于关机状态的情况下能够持续运行，正常接收信号，并且处于低功耗的睡眠模式。Theabove application processor 130 is responsible for the operation of the software system of theelectronic device 10, the realization of the functions of theelectronic device 10, and the control of peripheral devices, and is the control center of the entire software system. Theapplication processor 130 does not work when theelectronic device 10 is turned off, and cannot receive or process any signals. In one embodiment, as shown in FIG. 2 , theapplication processor 130 includes an Always On Sub Processor (AOSP) 131. When theelectronic device 10 is in a shutdown state, a power management chip (PowerManagement IC, The PMIC) 140 continuously supplies power to the normally-on coprocessor AOSP, that is, the normally-on coprocessor AOSP can continue to run when theelectronic device 10 is in a shutdown state, receive signals normally, and be in a low-power sleep mode.

以上电源管理芯片140是一个集成微控制单元(Microcontroller Unit，MCU)和多路电源输出的集成模块，主要负责接收开机信号和为应用处理器130、外围器件输出所需的电源，其由电池150进行供电。如图2所示，电源管理芯片140与应用处理器130连接，其中一路负责为应用处理器130供电，另外一路负责与应用处理器140之间进行数据通信。在一个实施例中，如图2所示，在应用处理器130包括AOSP的情况下，电源管理芯片140通过单独的供电通路为AOSP供电，该常开协处理器AOSP在电子设备10处于关机状态的情况下能够持续运行，正常接收信号，并且处于低功耗的睡眠模式。在一个实施例中，如图2所示，电源管理芯片140还与控制芯片110连接，以为控制芯片110提供系统电源。The abovepower management chip 140 is an integrated module integrating a Microcontroller Unit (MCU) and multiple power outputs, and is mainly responsible for receiving the power-on signal and outputting the power required for theapplication processor 130 and peripheral devices. Power on. As shown in FIG. 2 , thepower management chip 140 is connected to theapplication processor 130 , one of which is responsible for supplying power to theapplication processor 130 , and the other one is responsible for data communication with theapplication processor 140 . In one embodiment, as shown in FIG. 2 , when theapplication processor 130 includes an AOSP, thepower management chip 140 supplies power to the AOSP through a separate power supply path, and the normally-on coprocessor AOSP is in a shutdown state when theelectronic device 10 is turned off. In the case of continuous operation, receiving signals normally, and in a low-power sleep mode. In one embodiment, as shown in FIG. 2 , thepower management chip 140 is further connected to thecontrol chip 110 to provide system power for thecontrol chip 110 .

以上NFC天线120用于收发近场通信射频(Near Field Communication，NFC)信号。在一个实施例中，如图2所示，电子设备10还包括天线匹配模块170，所述天线匹配模块170连接在控制芯片110和NFC天线120之间，以确保控制芯片110性能所需要的被动器件组成，该被动器件例如但不限于包括电容、电阻、电感。Theabove NFC antenna 120 is used for sending and receiving near field communication radio frequency (Near Field Communication, NFC) signals. In one embodiment, as shown in FIG. 2 , theelectronic device 10 further includes anantenna matching module 170 , theantenna matching module 170 is connected between thecontrol chip 110 and theNFC antenna 120 to ensure passive performance required by thecontrol chip 110 The device is composed of passive devices such as but not limited to capacitors, resistors, and inductors.

以上控制芯片110是核心模块，可以简称为该Dream IC。参照图4，该控制芯片110包括NFC无线取电调节器(Regulator)、系统电源上电检测电路、I2C接口、电源键触发器(Power Key Trigger)、系统电源存储次数存储器、超低功耗微控制单元(MCU)116。该控制芯片支持控制协议，该控制协议简称为Dream协议，在此，控制芯片还包括控制协议发送模块、控制协议接收模块、NFC线圈驱动模块。Theabove control chip 110 is a core module, which may be referred to as the Dream IC for short. Referring to FIG. 4 , thecontrol chip 110 includes an NFC wireless power-taking regulator (Regulator), a system power-on detection circuit, an I2C interface, a power key trigger (Power Key Trigger), a system power storage times memory, an ultra-low power consumption microcomputer Control Unit (MCU) 116 . The control chip supports a control protocol, which is referred to as the Dream protocol for short. Here, the control chip further includes a control protocol sending module, a control protocol receiving module, and an NFC coil driving module.

其中，以上NFC无线取电调节器支持通过NFC天线120取电并产生控制芯片所需的电源。图2中的系统电源启动后，切换致系统电源以由电源管理芯片140为控制芯片供电。Among them, the above NFC wireless power taking regulator supports taking power through theNFC antenna 120 and generating the power required by the control chip. After the system power supply in FIG. 2 is started, the system power supply is switched so that thepower management chip 140 supplies power to the control chip.

其中，以上系统电源上电检测电路用于检测系统电源循环次数，并将所检测到的系统电源循环次数发送至系统电源循环次数存储器，系统电源循环次数存储器用于记录系统电源循环次数。The above system power-on detection circuit is used to detect the number of system power cycles, and send the detected number of system power cycles to the system power cycle number storage, which is used to record the system power cycle times.

其中，以上I2C接口支持应用处理器130通过I2C读取系统电源循环次数。同时支持应用处理器130通过I2C读取微控制单元MCU通过NFC线圈驱动电路透传的文件，以实现个性化UI、主题定制、祝福语个性化等操作。The above I2C interface supports theapplication processor 130 to read the number of system power cycles through I2C. At the same time, it supports theapplication processor 130 to read the files transparently transmitted by the microcontroller unit MCU through the NFC coil drive circuit through I2C, so as to realize operations such as personalized UI, theme customization, and personalized greetings.

其中，以上微控制单元MCU通过控制协议传输模块获知外部NFC设备发出的开机请求后，驱动电源键触发器(Power Key Trigger)执行开机操作。The above micro-control unit MCU drives the power key trigger (Power Key Trigger) to perform the power-on operation after learning the power-on request sent by the external NFC device through the control protocol transmission module.

其中，以上控制协议发送模块支持控制协议内容发射，完成MCU数据发送到NFC线圈驱动模块。Among them, the above control protocol sending module supports the content transmission of the control protocol, and completes the sending of the MCU data to the NFC coil driving module.

其中，以上控制协议发送模块支持控制协议内容接收，完成NFC线圈驱动模块数据接收并发送给MCU。Among them, the above control protocol sending module supports receiving the content of the control protocol, completes the data receiving of the NFC coil driving module and sends it to the MCU.

其中，以上NFC线圈驱动模块，是适配NFC信号传输特点，驱动NFC天线120接收和发射信息。The above NFC coil driving module is adapted to the characteristics of NFC signal transmission, and drives theNFC antenna 120 to receive and transmit information.

其中，超低功耗MCU用于完成系统初始化配置，支持Dream通信协议层数据读写。并且，Dream通信协议层支持以下功能，标志码(ID)请求、密钥解锁请求、开机请求、密钥上锁请求、文件传输请求、系统电源循环次数读取请求、WIFI信息传输请求。Among them, the ultra-low-power MCU is used to complete the system initialization configuration and supports the reading and writing of data at the Dream communication protocol layer. In addition, the Dream communication protocol layer supports the following functions, identification code (ID) request, key unlock request, power-on request, key lock request, file transfer request, system power cycle times read request, WIFI information transmission request.

本实施例中，Dream通信协议包文包括：准备包Prepare+同步信号Sync+CMDHeader+负载信号Payload、CRC、包尾信号EP。In this embodiment, the Dream communication protocol packet includes: preparation packet Prepare + synchronization signal Sync + CMDHeader + load signal Payload, CRC, and packet end signal EP.

其中，Prepare+Sync字段：是先导同步信号，用于驱动电路产生自恢复时钟。Among them, Prepare+Sync field: is a pilot synchronization signal, which is used for the drive circuit to generate a self-recovery clock.

其中，CMD Head：8bit，其为指令标识，用于完成不同功能实现，具体可以参照表1：Among them, CMD Head: 8bit, which is the instruction identifier, which is used to realize different functions. For details, please refer to Table 1:

表1CMD Head及其对应的功能Table 1CMD Head and its corresponding functions

其中，Payload为有效负荷数据，长度为1～4K byte，具体如下所示：Among them, Payload is payload data with a length of 1 to 4K bytes, as follows:

(1)ACK-ID请求，Payload传输16bit Dream芯片的标识码。(1) ACK-ID request, Payload transmits the identification code of the 16bit Dream chip.

(2)文件传输请求，Payload传输8+4K bit文件，Payload前8Bit高4bit表示文件传输总数目，低4bit表示当前传输文件编号。当控制芯片检测到低4bit等于高4bit时，文件传输结束。(2) File transfer request,Payload transfers 8+4K bit files, the first 8 bits of Payload and the high 4 bits represent the total number of files to be transferred, and the low 4 bits represent the current file number to be transferred. When the control chip detects that the low 4 bits are equal to the high 4 bits, the file transfer ends.

(3)ACK-文件传输请求：Payload：8bit高4bit：0x00表示传输成功，0x11传输失败，低4位：文件传输请求Payload前8Bit低4bit。(3) ACK-file transfer request: Payload: 8bit high and 4bit: 0x00 indicates successful transfer, 0x11 transfer failed, low 4bit: the first 8bit of the file transfer request Payload is low 4bit.

(4)ACK-开机指令请求，Payload 0x00，开机成功，0x11开机失败。(4) ACK-boot command request, Payload 0x00, boot success, 0x11 boot failure.

(5)ACK-密钥解锁请求，Payload 0x00，匹配成功，0x11匹配失败。(5) ACK-Key unlock request, Payload 0x00, match successfully, 0x11 match failure.

(6)ACK-系统电源循环次数读取请求，Payload传输16bit系统电源上电次数。(6) ACK-system power cycle times read request, Payload transmits 16bit system power up times.

(7)WIFI信息传输请求，Payload传输WIFI名称，账号，密码。(7) WIFI information transmission request, Payload transmits WIFI name, account number and password.

(8)ACK-WIFI信息传输请求，Payload 0x00，设置成功，0x11设置失败。(8) ACK-WIFI information transmission request, Payload 0x00, set successfully, 0x11 set failed.

(9)ACK-系统电源状态读取，Payload 0x00，系统开机，0x11系统关机。(9) ACK-system power status read, Payload 0x00, system power on, 0x11 system power off.

其中，CRC是CMD Head及Payload校验位，出错后触发重传机制。其中，EP为包尾标识。Among them, the CRC is the check digit of the CMD Head and Payload, which triggers the retransmission mechanism after an error occurs. Among them, EP is the end of the package identifier.

下面结合附图，通过具体的实施例及其应用场景对本申请实施例提供的电子设备控制方法进行详细地说明。The electronic device control method provided by the embodiments of the present application will be described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

本申请实施例涉及一种电子设备控制方法，该电子设备可以是图1和图2所示的电子设备，如图3所示，该电子设备控制方法可以包括如下步骤3100～3200：The embodiment of the present application relates to a method for controlling an electronic device. The electronic device may be the electronic device shown in FIG. 1 and FIG. 2 . As shown in FIG. 3 , the electronic device control method may include the following steps 3100 to 3200:

步骤3100，在所述电子设备10处于关机状态的情况下，所述控制芯片110通过所述NFC天线120接收NFC设备发送的开机请求。Step 3100 , when theelectronic device 10 is in a shutdown state, thecontrol chip 110 receives a power-on request sent by the NFC device through theNFC antenna 120 .

其中，NFC设备可以是NFC读卡器，也可以是具有NFC功能的其他电子设备，该NFC设备也支持以上控制协议即Dream协议。电子设备通常处于包装盒内，可以将该NFC设备靠近该电子设备的包装盒，以触发电子设备开机。The NFC device may be an NFC card reader or other electronic device with NFC function, and the NFC device also supports the above control protocol, namely the Dream protocol. The electronic device is usually in a packaging box, and the NFC device can be brought close to the packaging box of the electronic device to trigger the electronic device to turn on.

本实施例中，在电子设备10处于关机状态的情况下，NFC设备发送开机请求，控制芯片110通过NFC天线120接收NFC设备发送的开机请求。In this embodiment, when theelectronic device 10 is in a shutdown state, the NFC device sends a power-on request, and thecontrol chip 110 receives the power-on request sent by the NFC device through theNFC antenna 120 .

步骤4200，所述控制芯片110基于所述开机请求控制所述所述电源管理芯片为所述应用处理器供电，以使所述电子设备开机。Step 4200, thecontrol chip 110 controls the power management chip to supply power to the application processor based on the power-on request, so as to power on the electronic device.

本实施例中，控制芯片110接收到开机请求后，触发电源键触发器(Power KeyTrigger)执行开机操作，即控制芯片110驱动内部电源键触发器(Power Key Trigger)输出低电平信号。电源管理芯片140在检测到低电平信号的情况下为应用处理器130供电，实现电子设备10开机。In this embodiment, after receiving the power-on request, thecontrol chip 110 triggers the Power Key Trigger to perform the power-on operation, that is, thecontrol chip 110 drives the internal Power Key Trigger to output a low-level signal. Thepower management chip 140 supplies power to theapplication processor 130 when the low-level signal is detected, so that theelectronic device 10 can be powered on.

可以理解的是，在电子设备10开机之后，控制芯片110通过NFC天线120发送开机成功的ACK-开机请求。反之，在电子设备10开机失败的情况下，控制芯片110通过NFC天线120发送开机失败的ACK-开机请求。It can be understood that, after theelectronic device 10 is powered on, thecontrol chip 110 sends an ACK-boot request for successful booting through theNFC antenna 120 . On the contrary, in the case that theelectronic device 10 fails to power on, thecontrol chip 110 sends an ACK-power-on request of the failure to power on through theNFC antenna 120 .

在本申请实施例中，该电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，在电子设备处于关机状态的情况下，控制芯片会通过NFC天线接收NFC设备发送的开机请求，并基于开机请求控制所述电源管理芯片为应用处理器供电，以使电子设备开机，使得电子设备在处于包装盒内的情况下也能实现开机，降低了材料成本和人力成本，提高用户体验。In the embodiment of the present application, the electronic device includes a control chip, an NFC antenna, an application processor, a power management chip and a battery. When the electronic device is turned off, the control chip will receive a power-on request sent by the NFC device through the NFC antenna , and control the power management chip to supply power to the application processor based on the power-on request, so that the electronic device can be powered on, so that the electronic device can be powered on even when it is in the packaging box, which reduces material costs and labor costs and improves user experience. .

在一个实施例中，在执行以上步骤3100通过所述NFC天线接收NFC设备发送的开机指令之前，本申请实施例的电子设备控制方法还包括如下步骤4100～步骤4400：In one embodiment, before performing the above step 3100 to receive a power-on instruction sent by the NFC device through the NFC antenna, the electronic device control method of this embodiment of the present application further includes the following steps 4100 to 4400:

步骤4100，所述控制芯片110通过所述NFC天线120接收所述NFC设备发送的标识码请求。Step 4100, thecontrol chip 110 receives the identification code request sent by the NFC device through theNFC antenna 120.

其中，标识码请求为控制芯片ID请求。Wherein, the identification code request is a control chip ID request.

本实施例中，当电子设备10处于关机状态的情况下，NFC设备先发送标识码请求，控制芯片110通过NFC天线120接收NFC设备发送的标识码请求。In this embodiment, when theelectronic device 10 is turned off, the NFC device first sends an identification code request, and thecontrol chip 110 receives the identification code request sent by the NFC device through theNFC antenna 120 .

步骤4200，所述控制芯片110基于所述标识码请求，通过所述NFC天线发送携带所述控制芯片的标识码的第一应答指令，以由所述NFC设备将所述标识码发送至云服务器进行验证获得所述标识码对应的密钥。Step 4200: Based on the identification code request, thecontrol chip 110 sends a first response command carrying the identification code of the control chip through the NFC antenna, so that the NFC device sends the identification code to the cloud server Perform verification to obtain the key corresponding to the identification code.

其中，第一应答指令为ACK-ID请求，该标识码为经过加密的数据。The first response command is an ACK-ID request, and the identification code is encrypted data.

本实施例中，当控制芯片110接收到标识码请求之后，会通过NFC天线120向NFC设备发送携带有控制芯片110的标识码的第一应答指令，NFC设备接收到第一应答指令之后，会将控制芯片110的标识码发送至云服务器进行验证，例如由云服务器查找是否记录该控制芯片110的标识码，在云服务器查找到该控制芯片110的标识码的情况下，云服务器将与该控制芯片110的标识码匹配的密钥发送至NFC设备。In this embodiment, after thecontrol chip 110 receives the identification code request, it will send the first response command carrying the identification code of thecontrol chip 110 to the NFC device through theNFC antenna 120. After the NFC device receives the first response command, it will send Send the identification code of thecontrol chip 110 to the cloud server for verification. For example, the cloud server will check whether the identification code of thecontrol chip 110 is recorded. If the cloud server finds the identification code of thecontrol chip 110, the cloud server will communicate with thecontrol chip 110. The key matched with the identification code of thecontrol chip 110 is sent to the NFC device.

步骤4300，所述控制芯片110通过所述NFC天线120接收所述NFC设备发送的密钥解锁请求；其中，所述密钥匹配请求携带所述密钥。Step 4300, thecontrol chip 110 receives the key unlock request sent by the NFC device through theNFC antenna 120; wherein the key matching request carries the key.

本实施例中，NFC设备发送携带有该密钥的密钥解锁请求，控制芯片110通过NFC天线120接收到密钥解锁请求。In this embodiment, the NFC device sends a key unlock request carrying the key, and thecontrol chip 110 receives the key unlock request through theNFC antenna 120 .

步骤4400，所述控制芯片110将接收到的所述密钥与预先存储的密钥进行匹配，并在匹配成功的情况下，通过所述NFC天线向所述NFC设备发送匹配成功的第二应答指令。Step 4400, thecontrol chip 110 matches the received key with the pre-stored key, and in the case of successful matching, sends a second response of successful matching to the NFC device through the NFC antenna instruction.

其中，第二应答指令可以是ACK-密钥解锁请求。Wherein, the second response instruction may be an ACK-key unlock request.

本实施例中，控制芯片110接收到密钥匹配请求之后，会将接收到的密钥与预先存储的密钥进行匹配，并在密钥匹配成功的情况下，表明对控制芯片110解锁成功。控制芯片110会通过NFC天线120向NFC设备发送匹配成功的第二应答指令。反之，在匹配失败的情况下，表明对控制芯片110解锁失败，控制芯片110会通过NFC天线120向NFC设备发送解锁失败的第二应答指令。In this embodiment, after receiving the key matching request, thecontrol chip 110 will match the received key with the pre-stored key, and if the key matching is successful, it indicates that thecontrol chip 110 is successfully unlocked. Thecontrol chip 110 sends a successfully matched second response command to the NFC device through theNFC antenna 120 . On the contrary, in the case of failure to match, it indicates that the unlocking of thecontrol chip 110 has failed, and thecontrol chip 110 will send a second response instruction of the unlocking failure to the NFC device through theNFC antenna 120 .

根据本实施例，在对电子设备10进行开机之前，电子设备先对控制芯片的标识码进行加密传输，并通过Dream协议实现标识码云端验证，进而通过密钥传输匹配解锁控制芯片，安全系数高。According to this embodiment, before theelectronic device 10 is turned on, the electronic device encrypts and transmits the identification code of the control chip, and realizes cloud verification of the identification code through the Dream protocol, and then matches and unlocks the control chip through key transmission, with a high safety factor. .

在一个实施例中，在执行以上步骤3200在所述电子设备开机之后，本申请实施例的电子设备控制方法还包括如下步骤5100～步骤5300：In one embodiment, after theabove step 3200 is performed and the electronic device is powered on, the electronic device control method of this embodiment of the present application further includes the following steps 5100 to 5300:

步骤5100，所述控制芯片通过所述NFC天线接收所述NFC设备发送的WIFI信息传输请求；其中，所述WIFI信息传输请求中携带所述NFC设备搜索到的WIFI信息。Step 5100: The control chip receives the WIFI information transmission request sent by the NFC device through the NFC antenna; wherein, the WIFI information transmission request carries the WIFI information searched by the NFC device.

其中，NFC设备搜索到的WIFI信息包括：NFC设备搜索到的WIFI名称以及该WIFI名称对应的账号和密码。The WIFI information searched by the NFC device includes: the WIFI name searched by the NFC device and the account number and password corresponding to the WIFI name.

本实施例中，在电子设备10开机之后，NFC设备可以发送WIFI信息传输请求，其中，该WIFI信息传输请求携带NFC设备所搜索到的WIFI名称及其对应的账号和密码。控制芯片110通过NFC天线120接收WIFI信息传输请求。In this embodiment, after theelectronic device 10 is powered on, the NFC device can send a WIFI information transmission request, wherein the WIFI information transmission request carries the WIFI name and the corresponding account number and password searched by the NFC device. Thecontrol chip 110 receives the WIFI information transmission request through theNFC antenna 120 .

步骤5200，所述控制芯片将搜索到的所述WIFI信息发送至所述应用处理器130。Step 5200, the control chip sends the searched WIFI information to theapplication processor 130.

步骤5300，所述应用处理器130基于搜索到的所述WIFI信息进行WIFI设置，并在WIFI设置失败的情况下，通过所述NFC天线120向所述NFC设备发送WIFI设置失败的第三应答指令，以由所述NFC设备输出所述WIFI设置失败的提示信息。Step 5300, theapplication processor 130 performs WIFI setting based on the searched WIFI information, and in the case of WIFI setting failure, sends a third response instruction of WIFI setting failure to the NFC device through theNFC antenna 120 , so that the NFC device outputs the prompt information that the WIFI setting fails.

其中，第三应答指令可以是ACK-WIFI信息传输请求。The third response instruction may be an ACK-WIFI information transmission request.

其中，提示信息可以是文字提示信息，也可以是语音提示信息。The prompt information may be text prompt information or voice prompt information.

本实施例中，控制芯片110接收到WIFI信息传输请求之后，会将WIFI名称、账号和密码发送至应用处理器130进行WIFI设置，并在WIFI设置成功的情况下，通过NFC天线120向NFC设备发送WIFI设置成功的第三应答指令。或者，在WIFI设置失败的情况下，通过NFC天线120向NFC设备发送WIFI设置失败的第三应答指令，由该NFC设备提示用户更换WIFI信息或者检查路由器设置。In this embodiment, after receiving the WIFI information transmission request, thecontrol chip 110 will send the WIFI name, account number and password to theapplication processor 130 for WIFI setting, and if the WIFI setting is successful, send theNFC antenna 120 to the NFC device through theNFC antenna 120 Send the third response command that the WIFI setting is successful. Alternatively, when the WIFI setting fails, theNFC antenna 120 sends a third response instruction of the WIFI setting failure to the NFC device, and the NFC device prompts the user to change the WIFI information or check the router settings.

在一个实施例中，参照图2可知，控制芯片110与电源管理芯片140连接，在电子设备10开机之后，会通过电源管理芯片140为所述控制芯片110提供系统电源。则在执行以上步骤3200在所述电子设备开机之后，本申请实施例的电子设备控制方法还包括如下步骤6100～步骤6200：In one embodiment, referring to FIG. 2 , thecontrol chip 110 is connected to thepower management chip 140 , and after theelectronic device 10 is powered on, thepower management chip 140 provides system power to thecontrol chip 110 . Then, after theabove step 3200 is executed and the electronic device is powered on, the electronic device control method according to this embodiment of the present application further includes the following steps 6100 to 6200:

步骤6100所述控制芯片通过所述NFC天线接收系统电源循环次数读取请求。In step 6100, the control chip receives a request for reading the number of system power cycles through the NFC antenna.

本实施例中，在电子设备10开机之后，NFC设备可以发送系统电源循环次数读取请求。控制芯片110通过NFC天线120接收系统电源循环次数读取请求。In this embodiment, after theelectronic device 10 is powered on, the NFC device may send a request for reading the number of system power cycles. Thecontrol chip 110 receives a request for reading the number of system power cycles through theNFC antenna 120 .

步骤6200，所述控制芯片基于所述系统电源循环次数读取请求读取所述系统电源循环次数，并通过所述NFC天线向所述NFC设备发送第四应答指令；其中，所述第四应答指令中携带所述系统电源循环次数。Step 6200, the control chip reads the number of system power cycles based on the read request for the number of system power cycles, and sends a fourth response command to the NFC device through the NFC antenna; wherein the fourth response The instruction carries the number of power cycles of the system.

其中，第四应答指令可以是ACK-系统电源上电次数读取请求。Wherein, the fourth response command may be an ACK-system power-on times reading request.

本实施例中，控制芯片110接收到系统电源循环次数读取请求之后，会获取内部的系统电源循环次数存储器所记录的系统电源循环次数，并将携带有系统电源循环次数的第四应答指令通过NFC天线120发送至NFC设备。NFC设备接收到第四应答指令之后，便可获知系统电源循环次数。In this embodiment, after thecontrol chip 110 receives the read request for the number of system power cycles, it will obtain the number of system power cycles recorded in the internal system power cycle number memory, and pass the fourth response command carrying the number of system power cycles through theThe NFC antenna 120 transmits to the NFC device. After the NFC device receives the fourth response command, it can know the number of power cycles of the system.

根据本实施例，其支持系统电源循环次数读取，通过控制芯片实现开机的可不计入其中，仅读取通过开机键实现开机的系统电源循环次数，防止二手电子设备更换包装后做新品销售，支持不拆包装验证。According to this embodiment, it supports the reading of the number of power cycles of the system, and the number of power cycles of the system that is powered on by the control chip may not be included in it, and only the number of cycles of the system power that is powered on by the power-on key is read, preventing second-hand electronic equipment from being sold after changing packaging. Unpacked verification is supported.

在一个实施例中，在执行以上步骤3200在所述电子设备开机之后，本申请实施例的电子设备控制方法还包括如下步骤7100～步骤7200：In one embodiment, after theabove step 3200 is performed and the electronic device is powered on, the electronic device control method of this embodiment of the present application further includes the following steps 7100 to 7200:

步骤7100，所述控制芯片通过所述NFC天线接收文件传输请求；其中，所述文件传输请求中携带待传输文件。Step 7100, the control chip receives a file transmission request through the NFC antenna; wherein, the file transmission request carries the file to be transmitted.

其中，文件传输请求用于NFC设备向电子设备10传输待传输文件，该带传输文件可以是图片，也可以是文字等，本实施例不做限定。如上所述，文件传输请求中Payload传输8+4K bit文件，Payload前8Bit高4bit表示文件传输数目，低4bit表示当前输出文件编号，4K表示所传输文件。也就是说，当所传输文件大于4K的情况下，需要将该所传输文件拆分为多个4K的待传输文件，并基于该文件传输请求逐个传输该待传输文件。可以理解的是，当控制芯片检测到低4bit等于高4bit时，表明多个待传输文件均传输成功。The file transfer request is used for the NFC device to transfer the file to be transferred to theelectronic device 10, and the file to be transferred may be a picture or text, which is not limited in this embodiment. As mentioned above, in the file transfer request, the payload transmits 8+4K bit files. The first 8 bits of the payload and the high 4 bits represent the number of files to be transferred, the low 4 bits represent the current output file number, and 4K represents the transferred file. That is to say, when the transferred file is larger than 4K, the transferred file needs to be divided into multiple 4K files to be transferred, and the files to be transferred are transferred one by one based on the file transfer request. It can be understood that when the control chip detects that the low 4 bits are equal to the high 4 bits, it indicates that multiple files to be transmitted are successfully transmitted.

本实施例中，在电子设备10开机之后，NFC设备可以发送文件传输请求。控制芯片110通过NFC天线120接收文件传输请求。In this embodiment, after theelectronic device 10 is powered on, the NFC device may send a file transfer request. Thecontrol chip 110 receives the file transfer request through theNFC antenna 120 .

步骤7200，所述控制芯片将所述待传输文件发送至所述应用处理器。Step 7200, the control chip sends the to-be-transmitted file to the application processor.

本实施例中，控制芯片110接收到文件传输请求之后，便可将待传输文件发送至应用处理器130。In this embodiment, after thecontrol chip 110 receives the file transfer request, it can send the file to be transferred to theapplication processor 130 .

根据本实施例，其可以实现不拆包装的情况下通过非接触方法使得电子设备开机之后，例如控制电子设备进行软件紧急升级、个性化UI、主题定制、祝福语个性化等操作，对用户有创新服务，并带来用户价值与惊喜。According to this embodiment, after the electronic device is turned on through a non-contact method without unpacking, for example, the electronic device can be controlled to perform operations such as emergency software upgrade, personalized UI, theme customization, and personalized greetings. Innovative services, and bring user value and surprises.

例子1，结合图5所示，示出一个例子的电子设备控制方法的流程示意图，该例子中，该电子设备控制方法包括如下步骤：Example 1, in conjunction with FIG. 5, shows a schematic flowchart of an example of an electronic device control method. In this example, the electronic device control method includes the following steps:

步骤401，NFC读卡器发送Dream芯片ID请求。Step 401, the NFC card reader sends a Dream chip ID request.

步骤402，Dream芯片通过NFC天线接收Dream芯片ID请求，并发送ACK-ID请求，该ACK-ID请求中携带加密后的Dream芯片的ID。Step 402 , the Dream chip receives the Dream chip ID request through the NFC antenna, and sends an ACK-ID request, where the ACK-ID request carries the encrypted ID of the Dream chip.

步骤403，NCF读卡器接收ACK-ID请求，将Dream芯片的ID上传至云服务器验证获得该ID对应的密钥。Step 403, the NCF card reader receives the ACK-ID request, and uploads the ID of the Dream chip to the cloud server for verification to obtain the key corresponding to the ID.

步骤404，NCF读卡器发送密钥解锁请求；其中，该密钥解锁请求携带加密后的密钥。Step 404, the NCF card reader sends a key unlock request; wherein, the key unlock request carries the encrypted key.

步骤405，Dream芯片通过NFC天线接收密钥解锁请求，将接收到的密钥与预先存储的密钥进行匹配，在匹配成功的情况下，执行步骤406，反之，执行步骤414。Step 405 , the Dream chip receives the key unlock request through the NFC antenna, and matches the received key with the pre-stored key. If the matching is successful,step 406 is performed; otherwise,step 414 is performed.

步骤406，在密钥匹配成功的情况下，表明Dream芯片解锁成功，Dream芯片发送ACK-密钥匹配解锁请求，Payload 0x00，即匹配成功。Step 406 , in the case of successful key matching, it indicates that the Dream chip is successfully unlocked, and the Dream chip sends an ACK-key matching unlock request, Payload 0x00, that is, the matching is successful.

步骤407，NFC读卡器接收ACK-密钥匹配解锁请求，发送开机指令请求。Step 407, the NFC card reader receives the ACK-key matching unlock request, and sends a power-on command request.

步骤408，Dream芯片通过NFC天线接收开机指令请求，触发Power Key Trigger电路执行开机操作。Instep 408, the Dream chip receives a power-on command request through the NFC antenna, and triggers the Power Key Trigger circuit to perform a power-on operation.

步骤409，Dream芯片通过I2C检测应用处理器是否启动成功，是的话，执行步骤410，反之，执行步骤416。Step 409 , the Dream chip detects through I2C whether the application processor is successfully started, if yes, executes step 410 ; otherwise, executesstep 416 .

步骤410，在启动成功的情况下，Dream芯片通过NFC天线加密发送ACK-开机指令请求，Payload 0x00，即开机成功。Step 410, in the case of successful startup, the Dream chip encrypts and sends an ACK-boot command request through the NFC antenna, Payload 0x00, that is, the boot is successful.

步骤411，NFC设备接收ACK-开机指令请求，获得电子设备完成开机操作。Step 411, the NFC device receives the ACK-boot command request, and obtains the electronic device to complete the boot operation.

步骤412，NFC设备发送密钥上锁请求。Step 412, the NFC device sends a key lock request.

步骤413，Dream芯片通过NFC天线接收密钥上锁请求，控制Dream芯片进入关锁状态，流程结束。Step 413, the Dream chip receives the key lock request through the NFC antenna, controls the Dream chip to enter the lock state, and the process ends.

步骤414，在密钥匹配失败的情况下，表明Dream芯片解锁失败，Dream芯片发送ACK-密钥匹配解锁请求，Payload 0x11，即匹配失败。Step 414, if the key matching fails, it indicates that the Dream chip fails to unlock, and the Dream chip sends an ACK-key matching unlock request, Payload 0x11, that is, the matching fails.

步骤415，NFC设备接收ACK-密钥匹配解锁请求，获得电子设备密钥匹配失败，流程结束。Instep 415, the NFC device receives the ACK-key matching unlock request, and the obtained electronic device key matching fails, and the process ends.

步骤416，在启动失败的情况下，Dream芯片通过NFC天线发送ACK-开机请求，Payload 0x11，即开机失败。Step 416, in the case of failure to start, the Dream chip sends an ACK-boot request through the NFC antenna, Payload 0x11, that is, the boot fails.

步骤417，NFC设备接收ACK-开机指令请求，获得电子设备开机失败，流程结束。Instep 417, the NFC device receives the ACK-boot command request, and obtains that the electronic device fails to boot, and the process ends.

例子2，结合图6所示，示出一个例子的电子设备控制方法的流程示意图，该例子中，该电子设备控制方法包括如下步骤：Example 2, in conjunction with FIG. 6, shows a schematic flowchart of an example of an electronic device control method. In this example, the electronic device control method includes the following steps:

步骤501，NFC读卡器接收ACK-开机指令请求，获知电子设备完成开机操作。Step 501, the NFC card reader receives the ACK-boot command request, and learns that the electronic device has completed the boot operation.

步骤502，NFC读卡器发送WIFI名称账号密码传输请求；其中，该WIFI名称账号密码传输请求中携带加密后的WIFI名称、账号和密码。Step 502, the NFC card reader sends a WIFI name, account and password transmission request; wherein, the WIFI name, account and password transmission request carries the encrypted WIFI name, account number and password.

步骤503，Dream芯片通过NFC天线接收该WIFI名称账号密码传输请求，并通知应用处理器通过I2C获取该WIFI名称、账号和密码。Step 503, the Dream chip receives the WIFI name, account and password transmission request through the NFC antenna, and notifies the application processor to obtain the WIFI name, account and password through I2C.

步骤504，应用处理器基于该WIFI名称、账号和密码完成WIFI设置，并在设置成功的情况下，执行步骤505，反之，执行步骤507。Step 504, the application processor completes the WIFI setting based on the WIFI name, account number and password, and if the setting is successful, executesstep 505, otherwise, executesstep 507.

步骤505，在设置成功的情况下，Dream芯片通过NFC天线发送ACK-WIFI名称账号密码传输请求，Payload：0x00，即设置成功。Step 505, if the setting is successful, the Dream chip sends an ACK-WIFI name, account and password transmission request through the NFC antenna, Payload: 0x00, that is, the setting is successful.

步骤506，NFC设备接收到ACK-WIFI名称账号密码传输请求，获知电子设备WIFI设置成功，流程结束。Step 506, the NFC device receives the ACK-WIFI name, account and password transmission request, and learns that the WIFI setting of the electronic device is successful, and the process ends.

步骤507，在设置失败的情况下，Dream芯片通过NFC天线发送ACK-WIFI名称账号密码传输请求，Payload：0x11，即设置失败。Step 507 , in the case that the setting fails, the Dream chip sends an ACK-WIFI name, account and password transmission request through the NFC antenna, Payload: 0x11, that is, the setting fails.

步骤508，NFC设备接收到ACK-WIFI名称账号密码传输请求，获知电子设备WIFI设置失败。Step 508, the NFC device receives the ACK-WIFI name, account and password transmission request, and learns that the WIFI setting of the electronic device fails.

步骤509，NFC设备提示用户更换WIFI信息或者检查路由器设置，流程结束。Step 509, the NFC device prompts the user to change the WIFI information or check the router settings, and the process ends.

例子3，结合图7所示，示出一个例子的电子设备控制方法的流程示意图，该例子中，该电子设备控制方法包括如下步骤：Example 3, in conjunction with FIG. 7 , shows a schematic flowchart of an example of an electronic device control method. In this example, the electronic device control method includes the following steps:

步骤601，NFC读卡器接收ACK-开机指令请求，获知电子设备完成开机操作。Step 601, the NFC card reader receives the ACK-boot command request, and learns that the electronic device has completed the boot operation.

步骤602，NFC读卡器发送系统电源循环次数读取请求。Step 602, the NFC card reader sends a request for reading the number of system power cycles.

步骤603，Dream芯片通过NFC天线接收到系统电源循环次数读取请求。Step 603, the Dream chip receives a request for reading the number of system power cycles through the NFC antenna.

步骤604，Dream芯片通过NFC天线发送ACK-系统电源循环次数读取请求，Payload：系统电源循环次数。Step 604, the Dream chip sends an ACK-system power cycle number reading request through the NFC antenna, Payload: the system power cycle number.

步骤605，NFC设备接收到ACK-系统电源循环次数读取请求，获得系统电源循环次数。Step 605, the NFC device receives the ACK-system power cycle count read request, and obtains the system power cycle count.

例子4，结合图8所示，示出一个例子的电子设备控制方法的流程示意图，该例子中，该电子设备控制方法包括如下步骤：Example 4, in conjunction with FIG. 8 , shows a schematic flowchart of an example of an electronic device control method. In this example, the electronic device control method includes the following steps:

步骤701，NFC读卡器接收ACK-开机指令请求，获知电子设备完成开机操作。Step 701, the NFC card reader receives the ACK-boot command request, and learns that the electronic device has completed the boot operation.

步骤702，NFC读卡器发送文件传输请求，Payload：8+4K byte文件。Step 702, the NFC card reader sends a file transfer request, Payload: 8+4K byte file.

步骤703，Dream芯片通过NFC天线接收文件传输请求。Step 703, the Dream chip receives the file transfer request through the NFC antenna.

步骤704，Dream芯片通过I2C上传FIFO(First Input First Output)文件缓存数据至应用处理器，并判断文件是否传输成功，否的话，执行步骤705，反之，执行步骤706。Step 704 , the Dream chip uploads the FIFO (First Input First Output) file cache data to the application processor through I2C, and judges whether the file is transferred successfully, if not, go to step 705 , otherwise go to step 706 .

步骤705，Dream芯片在传输失败的情况下，通过NFC芯片发送ACK-文件传输请求，Payload：0x11+文件传输请求Payload前8Bit低4bit，NFC设备接收到ACK-文件传输请求，基于该ACK-文件传输请求继续发送文件，即继续执行步骤702。Step 705, in the case of a transmission failure, the Dream chip sends an ACK-file transfer request through the NFC chip, Payload: 0x11+ the first 8 bits of the file transfer request Payload is lower by 4 bits, and the NFC device receives the ACK-file transfer request, based on the ACK-file transfer request To request to continue to send the file, that is, continue to performstep 702 .

步骤706，Dream芯片在传输成功的情况下，通过NFC芯片发送ACK-文件传输请求，Payload：0x00+文件传输请求Payload前8Bit低4bit。Step 706 , in the case of successful transmission, the Dream chip sends an ACK-file transmission request through the NFC chip, Payload: 0x00+ the first 8 bits of the file transmission request Payload is low by 4 bits.

步骤707，NFC读卡器接收到ACK-文件传输请求，开始发送下笔文件，文件编号由ACK设置，并继续执行步骤702。Step 707 , the NFC card reader receives the ACK-file transfer request, starts to send the next file, the file number is set by the ACK, and proceeds to step 702 .

本申请实施例还提供一种电子设备，如图1所示，所述电子设备10包括控制芯片110、NFC天线120、应用处理器130、电源管理芯片140和电池150，所述控制芯片110分别与所述NFC天线120、所述电源管理芯片140和所述应用处理器130连接，所述电源管理芯片140分别与所述电池150和所述应用处理器130连接。An embodiment of the present application further provides an electronic device. As shown in FIG. 1 , theelectronic device 10 includes acontrol chip 110 , anNFC antenna 120 , anapplication processor 130 , apower management chip 140 and abattery 150 . Thecontrol chip 110 is respectively It is connected to theNFC antenna 120 , thepower management chip 140 and theapplication processor 130 , and thepower management chip 140 is respectively connected to thebattery 150 and theapplication processor 130 .

本实施例中，所述控制芯片110在所述电子设备10处于关机状态的情况下，通过所述NFC天线120接收外部的开机请求；所述控制芯片110基于所述开机请求，控制所述电源管理芯片140为所述应用处理器130供电，以使所述电子设备开机。In this embodiment, thecontrol chip 110 receives an external power-on request through theNFC antenna 120 when theelectronic device 10 is turned off; thecontrol chip 110 controls the power supply based on the power-on request Themanagement chip 140 supplies power to theapplication processor 130 to turn on the electronic device.

具体的，控制芯片110会基于开机请求输出低电平信号；电源管理芯片140在检测到低电平信号的情况下，为应用处理器130供电，以使电子设备开机。Specifically, thecontrol chip 110 outputs a low-level signal based on the power-on request; when thepower management chip 140 detects the low-level signal, it supplies power to theapplication processor 130 to power on the electronic device.

根据本申请实施例，该电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，在电子设备处于关机状态的情况下，控制芯片会通过NFC天线接收NFC设备发送的开机请求，并基于开机请求控制所述电源管理芯片为应用处理器供电，以使电子设备开机，使得电子设备在处于包装盒内的情况下也能实现开机，降低了材料成本和人力成本，提高用户体验。According to the embodiment of the present application, the electronic device includes a control chip, an NFC antenna, an application processor, a power management chip and a battery. When the electronic device is in a shutdown state, the control chip will receive a power-on request sent by the NFC device through the NFC antenna, And based on the power-on request, the power management chip is controlled to supply power to the application processor, so that the electronic device can be turned on, so that the electronic device can be turned on even when it is in the packaging box, which reduces material costs and labor costs and improves user experience.

在一个实施例中，所述控制芯片110用于通过所述NFC天线120接收NFC设备发送的标识码请求。In one embodiment, thecontrol chip 110 is configured to receive an identification code request sent by an NFC device through theNFC antenna 120 .

所述控制芯片110用于基于所述标识码请求，通过所述NFC天线120发送携带所述控制芯片110的标识码的第一应答指令，以由所述NFC设备将所述标识码发送至云服务器进行验证获得所述标识码对应的密钥。Thecontrol chip 110 is configured to send a first response command carrying the identification code of thecontrol chip 110 through theNFC antenna 120 based on the identification code request, so that the NFC device sends the identification code to the cloud. The server performs verification to obtain the key corresponding to the identification code.

所述控制芯片110用于通过所述NFC天线120接收所述NFC设备发送的密钥解锁请求；其中，所述密钥解锁请求携带所述密钥。Thecontrol chip 110 is configured to receive a key unlock request sent by the NFC device through theNFC antenna 120; wherein the key unlock request carries the key.

所述控制芯片110用于将接收到的所述密钥与预先存储的密钥进行匹配，并在匹配成功的情况下，通过所述NFC天线120向所述NFC设备发送解锁成功的第二应答指令。Thecontrol chip 110 is used to match the received key with the pre-stored key, and in the case of successful matching, send a second response of successful unlocking to the NFC device through theNFC antenna 120 instruction.

在一个实施例中，所述控制芯片110用于通过所述NFC天线120接收所述NFC设备发送的WIFI信息传输请求；其中，所述WIFI信息传输请求中携带所述NFC设备搜索到的WIFI信息；In one embodiment, thecontrol chip 110 is configured to receive a WIFI information transmission request sent by the NFC device through theNFC antenna 120; wherein the WIFI information transmission request carries the WIFI information searched by the NFC device ;

所述控制芯片110用于将搜索到的所述WIFI信息发送至所述应用处理器130。Thecontrol chip 110 is configured to send the searched WIFI information to theapplication processor 130 .

所述应用处理器130用于基于搜索到的所述WIFI信息进行WIFI设置，并在WIFI设置失败的情况下，通过所述NFC天线120向所述NFC设备发送WIFI设置失败的第三应答指令，以由所述NFC设备输出所述WIFI设置失败的提示信息。Theapplication processor 130 is configured to perform WIFI setting based on the searched WIFI information, and when the WIFI setting fails, send a third response instruction of the WIFI setting failure to the NFC device through theNFC antenna 120, In order to output the prompt information of the WIFI setting failure by the NFC device.

在一个实施例中，所述控制芯片110用于通过所述NFC天线120接收文件传输请求；其中，所述文件传输请求中携带待传输文件。In one embodiment, thecontrol chip 110 is configured to receive a file transmission request through theNFC antenna 120; wherein, the file transmission request carries the file to be transmitted.

所述控制芯片110用于将所述待传输文件发送至所述应用处理器130。Thecontrol chip 110 is configured to send the to-be-transmitted file to theapplication processor 130 .

在一个实施例中，所述电源管理芯片140用于在所述电子设备10处于开机状态的情况下，为所述控制芯片110提供系统电源。In one embodiment, thepower management chip 140 is configured to provide system power for thecontrol chip 110 when theelectronic device 10 is in a powered-on state.

在一个实施例中，所述控制芯片110用于通过所述NFC天线120接收系统电源循环次数读取请求。In one embodiment, thecontrol chip 110 is configured to receive a request for reading the number of system power cycles through theNFC antenna 120 .

所述控制芯片110用于基于所述系统电源循环次数读取请求，从所述系统电源循环次数存储器中读取所述系统电源循环次数，并通过所述NFC天线120向所述NFC设备发送第四应答指令；其中，所述第四应答指令中携带所述系统电源循环次数。Thecontrol chip 110 is configured to read the number of system power cycles from the memory of the number of system power cycles based on the read request for the number of system power cycles, and send the first number of cycles to the NFC device through theNFC antenna 120 . Four response commands; wherein, the fourth response command carries the number of cycles of the system power supply.

本申请实施例还提供了一种电子设备套装，该电子设备套装包括上述实施例部分提供的任一种电子设备10；以及，包装盒，所述电子设备设置于所述包装盒内。The embodiment of the present application also provides an electronic equipment package, the electronic equipment package includes anyelectronic equipment 10 provided in the above-mentioned embodiment part; and a packaging box, the electronic device is arranged in the packaging box.

在本实施例中，由于本申请实施例提供的电子设备套装包括上述实施例部分提供的任一种电子设备10，因此，本申请实施例提供的电子设备套装能够实现与上述实施例部分提供的任一种电子设备10相同功能。即，该电子设备包括控制芯片、NFC天线、应用处理器、电源管理芯片和电池，在电子设备处于关机状态的情况下，控制芯片会通过NFC天线接收NFC设备发送的开机请求，并基于开机请求控制所述电源管理芯片为应用处理器供电，以使电子设备开机，使得电子设备在处于包装盒内的情况下也能实现开机，降低了材料成本和人力成本，提高用户体验。In this embodiment, since the electronic device set provided by the embodiment of the present application includes anyelectronic device 10 provided in the above-mentioned embodiment, the electronic device set provided by the embodiment of the present application can achieve the same Anyelectronic device 10 has the same function. That is, the electronic device includes a control chip, an NFC antenna, an application processor, a power management chip and a battery. When the electronic device is turned off, the control chip will receive a power-on request sent by the NFC device through the NFC antenna, and based on the power-on request The power management chip is controlled to supply power to the application processor, so that the electronic device can be turned on, so that the electronic device can be turned on even when it is in the packaging box, which reduces material costs and labor costs and improves user experience.

需要说明的是，在本文中，术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含，从而使得包括一系列要素的过程、方法、物品或者装置不仅包括那些要素，而且还包括没有明确列出的其他要素，或者是还包括为这种过程、方法、物品或者装置所固有的要素。在没有更多限制的情况下，由语句“包括一个……”限定的要素，并不排除在包括该要素的过程、方法、物品或者装置中还存在另外的相同要素。此外，需要指出的是，本申请实施方式中的方法和装置的范围不限按示出或讨论的顺序来执行功能，还可包括根据所涉及的功能按基本同时的方式或按相反的顺序来执行功能，例如，可以按不同于所描述的次序来执行所描述的方法，并且还可以添加、省去、或组合各种步骤。另外，参照某些示例所描述的特征可在其他示例中被组合。It should be noted that, herein, the terms "comprising", "comprising" or any other variation thereof are intended to encompass non-exclusive inclusion, such that a process, method, article or device comprising a series of elements includes not only those elements, It also includes other elements not expressly listed or inherent to such a process, method, article or apparatus. Without further limitation, an element qualified by the phrase "comprising a..." does not preclude the presence of additional identical elements in a process, method, article or apparatus that includes the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in the reverse order depending on the functions involved. To perform functions, for example, the described methods may be performed in an order different from that described, and various steps may also be added, omitted, or combined. Additionally, features described with reference to some examples may be combined in other examples.

通过以上的实施方式的描述，本领域的技术人员可以清楚地了解到上述实施例方法可借助软件加必需的通用硬件平台的方式来实现，当然也可以通过硬件，但很多情况下前者是更佳的实施方式。基于这样的理解，本申请的技术方案本质上或者说对现有技术做出贡献的部分可以以计算机软件产品的形式体现出来，该计算机软件产品存储在一个存储介质(如ROM/RAM、磁碟、光盘)中，包括若干指令用以使得一台终端(可以是手机，计算机，服务器，或者网络设备等)执行本申请各个实施例所述的方法。From the description of the above embodiments, those skilled in the art can clearly understand that the method of the above embodiment can be implemented by means of software plus a necessary general hardware platform, and of course can also be implemented by hardware, but in many cases the former is better implementation. Based on this understanding, the technical solutions of the present application can be embodied in the form of computer software products that are essentially or contribute to the prior art, and the computer software products are stored in a storage medium (such as ROM/RAM, magnetic disk , CD), including several instructions to make a terminal (which may be a mobile phone, a computer, a server, or a network device, etc.) execute the methods described in the various embodiments of the present application.

上面结合附图对本申请的实施例进行了描述，但是本申请并不局限于上述的具体实施方式，上述的具体实施方式仅仅是示意性的，而不是限制性的，本领域的普通技术人员在本申请的启示下，在不脱离本申请宗旨和权利要求所保护的范围情况下，还可做出很多形式，均属于本申请的保护之内。The embodiments of the present application have been described above in conjunction with the accompanying drawings, but the present application is not limited to the above-mentioned specific embodiments, which are merely illustrative rather than restrictive. Under the inspiration of this application, without departing from the scope of protection of the purpose of this application and the claims, many forms can be made, which all fall within the protection of this application.