CN104916876B - A low-power Bluetooth control rapid charging method and system for matching traversal - Google Patents

A low-power Bluetooth control rapid charging method and system for matching traversal Download PDF

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CN104916876B
CN104916876B CN201510139917.4A CN201510139917A CN104916876B CN 104916876 B CN104916876 B CN 104916876B CN 201510139917 A CN201510139917 A CN 201510139917A CN 104916876 B CN104916876 B CN 104916876B
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dual
mode
charger
charging
terminal
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CN104916876A (en
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蔡海
虞龙杰
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惠州Tcl移动通信有限公司
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Abstract

本发明公开了一种低功耗蓝牙控制快速充电的遍历匹配方法及系统,方法包括:双模充电终端与描获获得的双模充电器列表中每一双模充电器依序建立连接,连接成功后发送自定义链路层数据信令;各双模充电器进行加压,双模充电终端检测当前电压变化波形,若有电压变化波形则记录,之后与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件;满足匹配条件的双模充电器对双模充电终端进行快速充电。 The present invention discloses a low-power Bluetooth control method and system for fast traversal matching charging method comprising: charging the dual-mode dual-mode terminal and the charger list obtained for each eligible described dual-mode charger sequentially establish a connection, the connection after successfully sending custom data link layer signaling; pressing each of the dual-mode charger, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the current dual-mode after a disconnection the charger and dual-mode charger is connected to the next; dual-mode charging terminal after completion of all dual-mode charger traversal list, and clears the number of re-traversing recorded only once until the detected voltage variation waveform, a predetermined matching condition is satisfied; satisfied matching condition dual-mode dual-mode charger charging terminal for fast charging. 本发明使得用户只需简单操作就能实现双模充电器自动对双模充电终端进行快速充电,同时降低充电过程中充电器和终端的待机功耗。 The present invention enables a user operation can be achieved simply dual-mode dual-mode automatic charger charging rapid charging terminal, while reducing standby power and the charger during the charging of the terminal.

Description

一种低功耗蓝牙控制快速充电的遍历匹配方法及系统 A low-power Bluetooth control rapid charging method and system for matching traversal

技术领域 FIELD

[0001] 本发明涉及蓝牙技术领域,尤其涉及一种低功耗蓝牙控制快速充电的遍历匹配方法及系统。 [0001] The present invention relates to Bluetooth technology, and in particular relates to a method and system for matching traversing a low-power Bluetooth control rapid charging.

背景技术 Background technique

[0002] 目前,诸如智能手机、平板等移动智能终端的功能越来越多样化,各种应用层出不穷,用户使用移动智能终端的频率也越来越高,例如打电话、发短信、听音乐、看视频、玩游戏、使用Wi-Fi上网看新闻、购物、聊天等。 [0002] At present, such as functional smart phones, tablets and other mobile intelligent terminals more diverse, endless variety of applications, the frequency of use of mobile intelligent terminals have become more sophisticated, such as phone calls, send text messages, listen to music, watch videos, play games, use Wi-Fi Internet to read news, shopping, chat and so on. 与此同时,手机的耗电量也大大增加,待机时间明显缩短,用普通充电器为终端充满电往往需要花费很长的时间。 At the same time, the phone's power consumption also increased significantly, standby time is significantly shorter, with a normal charger is fully charged terminal often takes a long time. 因此,如何使终端快速充满电成为用户关心和急需解决的一个问题。 So, how to make the terminal is fully charged quickly become a problem and the urgent need to address user concerns.

[0003] 目前移动终端的充电器以单模充电器为主,即只有普通充电或快速充电中的一种,且在充电过程中充电器和终端的待机功耗都较高。 [0003] In the current single-mode mobile terminal charger main charger, or one that only ordinary charging in the rapid charging, and the charging process in the standby power charger and the terminal are high.

[0004] 因此,现有技术还有待于改进和发展。 [0004] Thus, the prior art has yet to be improved and developed.

发明内容 SUMMARY

[0005] 本发明针对现有技术的上述缺陷,提供一种低功耗蓝牙控制快速充电的遍历匹配方法及系统,旨在解决现有技术中充电器和终端的待机功耗都较高,且具有普通充电和快速充电模式的双模终端无法自动匹配同样具有双模功能的充电器的缺陷。 [0005] The present invention addresses the above disadvantages of the prior art by providing a method and system for matching traversing a low-power Bluetooth control rapid charging, standby power consumption is to solve the prior art and the charger terminals are high, and the dual mode terminal having a fast charge mode and a normal charge can not be automatic matching defect charger also has a dual mode functionality.

[0006] 本发明解决技术问题所采用的技术方案如下: [0006] Solving the Problems The present invention adopts the following technical solution:

[0007] —种低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述方法包括步骤: [0007] - Low Power Bluetooth control rapid charging traversal matching method, wherein said method comprises the step of species:

[0008] A、双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; [0008] A, dual-mode charger to the periphery in a low power mode and a non-directional manner may be connected to customize the broadcast message;

[0009] B、双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; [0009] B, the dual-mode terminal scans dual-mode charger charging the custom broadcast message, and acquires a list of dual-mode charger;

[0010] C、双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; [0010] C, the dual-mode dual-mode terminal and the charging charger charger dual mode sequential list of each connection is established, the connection is successful sending custom data link layer signaling;

[0011] D、各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; [0011] D, each of the dual-mode charger custom data link layer signaling according to the pressure, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording after the completion of charging the dual mode terminal disconnect the current dual-mode battery charger and the charger is connected to the next dual mode; dual-mode charging terminal after all been traversed charger dual mode list, and clears the number of re-traversing recorded only once until the detected voltage variation waveform, a predetermined matching condition is satisfied;

[0012] E、双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充电器输出的快充电流,开启快速充电。 [0012] E, the charging terminal and the dual-mode dual-mode matching condition satisfied charger low power Bluetooth connection, and receives the fast-charge current output from the dual-mode battery charger, fast charging opening.

[0013] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述步骤C中所述双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,其中对连接请求信令的ChM字段作修改,使得双模充电器能够识别双模充电终端。 [0013] The low-power Bluetooth traversal matching control method of rapid charging, wherein said charging step C dual-mode dual-mode terminal and each of the dual-mode charger charger list before establishing a connection, are connected to the transmission request signaling, wherein the signaling connection request ChM field modification, the charger can recognize that the dual mode charge dual mode terminal.

[0014] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述自定义链路层数据信令为Payload格式,其中Payload格式的自定义链路层数据信令包括信令长度字段、通知消息类型字段和通知消息内容字段。 [0014] The Bluetooth control rapid charging traversing low power matching method, wherein the custom data link layer signaling is Payload format, wherein the custom data link layer Payload format signaling comprises Signaling length field , the notification message type field and a content field a notification message.

[0015] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述步骤D具体包括: [0015] The low-power Bluetooth control method matches fast charge traversal, wherein the step D comprises:

[0016] D11、当前双模充电器接收所述自定义链路层数据信令,并根据所述自定义链路层数据信令对双模充电终端进行加压; [0016] D11, the current dual-mode charger receiving custom data link layer signaling, and a custom data link layer signaling according to the terminal pressure of the dual mode charge;

[0017] D12、双模充电终端实时检测电压变化波形,如果有电压变化波形则记录和存储电压变化波形个数; [0017] D12, the dual mode terminal charge voltage variation waveform detected in real time, if the voltage variation waveform and the number of records stored in the voltage variation waveform;

[0018] D13、当双模充电终端完成D12步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; [0018] D13, the charging terminals when the dual-mode step D12 is completed, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, until bis charging mode terminal completes the number of dual-mode wave is detected and recorded in each of the dual-mode list charger charger voltage change under pressure;

[0019] D14、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; [0019] D14, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, the number of the voltage is determined whether the detected waveform change is 1;

[0020] D15、当检测到的电压变化波形个数为1,满足匹配条件。 [0020] D15, when the number of voltage waveform of a detected change, to satisfy the matching condition.

[0021] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述步骤D具体包括: [0021] The low-power Bluetooth control method matches fast charge traversal, wherein the step D comprises:

[0022] D21、当前双模充电器接收所述自定义链路层数据信令,并根据所述自定义链路层数据信令对双模充电终端进行加压; [0022] D21, the current dual-mode charger receiving custom data link layer signaling, and a custom data link layer signaling according to the terminal pressure of the dual mode charge;

[0023] D22、双模充电终端实时检测电压变化波形,并记录和存储电压变化波形个数,如果有电压变化波形; [0023] D22, a voltage change detected in real time the dual-mode terminal charging waveform, and the number of recording and storing the voltage change waveform, if the voltage variation waveform;

[0024] D23、当双模充电终端完成D22步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; [0024] D23, the charging terminals when the dual-mode step D22 is completed, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, until bis charging mode terminal completes the number of dual-mode wave is detected and recorded in each of the dual-mode list charger charger voltage change under pressure;

[0025] D24、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; [0025] D24, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, the number of the voltage is determined whether the detected waveform change is 1;

[0026] D25、当检测到的电压变化波形个数大于等于2时,清零记录次数,再返回执行步骤C; [0026] D25, the number of the voltage waveform when the detected change is greater than or equal to 2, the number of times recording is cleared, and execution returns to step C;

[0027] D26、当检测到的电压变化波形个数为1,满足匹配条件。 [0027] D26, when the number of voltage waveform of a detected change, to satisfy the matching condition.

[0028] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述步骤C还包括:当双模充电终端与双模充电器列表中的当前双模充电器连接失败时,则与双模充电器列表中的下一双模充电器进行连接。 [0028] The Bluetooth control rapid charging traversing low power matching method, wherein said step C further comprises: when a dual-mode and dual-mode terminal charger charging the current list dual-mode charger connection fails, and dual-mode dual-mode charger list next charger connected.

[0029] 所述低功耗蓝牙控制快速充电的遍历匹配方法,其中,所述步骤E之后还包括: [0029] The low-power Bluetooth traversal matching control method of rapid charging, wherein, after said step E further comprises:

[0030] F、当快速充电过程中检测到异常,则双模充电终端将异常对应的异常日志上报至双模充电器; [0030] F, when rapid charging is detected during the abnormal, the abnormality dual mode terminal corresponding to the charging abnormality log report to the dual-mode charger;

[0031] G、当快速充电完成时,则双模充电终端向双模充电器发送电量充满信息,双模充电器接收所述电量充满信息时停止对双模充电终端供电,断开与双模充电终端连接,并返回执行步骤A。 [0031] G, when rapid charging is completed, charging the dual mode terminal transmits information to the dual-mode charger is fully charged, the dual-mode dual-mode charger will stop charging when full power supply terminal receiving the charge information, and disconnecting dual-mode connected to the charging terminals, and returns to step A.

[0032] 一种低功耗蓝牙控制快速充电的遍历匹配系统,其中,包括: [0032] A low-power Bluetooth control rapid charging traversing a matching system, comprising:

[0033] 广播模块,用于双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; [0033] broadcasting module, used for a dual mode battery charger to the surroundings in a low power mode and a non-directional manner may be connected to customize the broadcast message;

[0034] 列表获取模块,用于双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; [0034] list acquisition module for dual mode terminal scans broadcasting charging the charger dual mode user-defined messages, and acquires a list of dual-mode charger;

[0035] 连接及发送模块,用于双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; [0035] Connection and transmission means for charging the dual-mode terminal and the dual-mode dual-mode charger charger sequence list for each connection is established, the connection is successful sending custom data link layer signaling;

[0036] 匹配检测模块,用于各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; [0036] The match detection means for each of the dual-mode charger custom data link layer signaling according to the pressure, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording is completed dual-mode charging current dual-mode terminal is disconnected and the charger is connected to the next dual-mode charger; dual-mode after charging all been traversed dual mode terminal list charger, traverse and clears the number of records, until it is detected to the voltage variation waveform only once, a predetermined matching condition is satisfied;

[0037] 充电开启模块,用于双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充电器输出的快充电流,开启快速充电。 [0037] charge opening module, a charging terminal for dual-mode matching conditions satisfying the dual mode Bluetooth low-power charger connected, and receives the fast-charge current output from the dual-mode battery charger, fast charging opening.

[0038] 所述低功耗蓝牙控制快速充电的遍历匹配系统,其中,所述连接及发送模块中双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,其中对连接请求信令的ChM字段作修改,使得双模充电器能够识别双模充电终端。 [0038] The low-power Bluetooth control rapid charging traversing a matching system, wherein the transmission module is connected and the charging terminals and the dual-mode dual-mode dual-mode charger charger for each list before establishing a connection, are connected to the transmission request signaling, wherein the signaling connection request ChM field modification, the charger can recognize that the dual mode charge dual mode terminal.

[0039] 所述低功耗蓝牙控制快速充电的遍历匹配系统,其中,所述自定义链路层数据信令为Payload格式,其中Payload格式的自定义链路层数据信令包括信令长度字段、通知消息类型字段和通知消息内容字段。 [0039] The low-power Bluetooth control rapid charging traversing a matching system, wherein the custom data link layer signaling is Payload format, wherein the custom data link layer Payload format signaling comprises Signaling length field , the notification message type field and a content field a notification message.

[0040] 本发明提供了一种低功耗蓝牙控制快速充电的遍历匹配方法及系统,方法包括:双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息;双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表;双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令;各双模充电器根据自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件;双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充电器输出的快 [0040] The present invention provides a method and system for matching a traverse a low-power Bluetooth control rapid charging, comprising: a dual-mode charger to the periphery in a low power mode and a non-directional manner may be connected to customize the broadcast message; dual mode charging the terminal scans broadcasting dual-mode charger custom message, and acquires a list of dual-mode charger; dual-mode and dual-mode charging terminals of each dual-mode charger charger list sequentially connect, the connection is successful transmission custom data link layer signaling; each dual-mode charger according to custom data link layer signaling pressurized, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording after the completion of the current dual-mode charger disconnect and connect the charger to the next dual mode; dual-mode charging terminal after all been traversed charger dual mode list, and clears the number of re-traversing recorded only once until the detected voltage variation waveform meet predetermined match condition; dual-mode dual-mode charger and the charging terminals satisfy the matching condition for low-power Bluetooth connection, and receives the output from the fast charger dual mode 电流,开启快速充电。 Current, fast charge opening. 本发明使得用户只需简单操作就能实现双模充电器自动对双模充电终端进行快速充电,同时降低了充电过程中充电器和终端的待机功耗。 The present invention enables a user operation can be achieved simply dual-mode dual-mode automatic charger charging terminal rapid charging while reducing the standby power consumption and the charger during the charging of the terminal.

附图说明 BRIEF DESCRIPTION

[0041] 图1是本发明所述低功耗蓝牙控制快速充电的遍历匹配方法较佳实施例的流程图。 [0041] FIG. 1 of the present invention is a low-power Bluetooth control rapid charging traversing matching method flowchart of preferred embodiment.

[0042] 图2为本发明所述低功耗蓝牙控制快速充电的遍历匹配方法中双模充电终端与双模充电器遍历匹配的第一实施例的流程示意图。 [0042] The schematic flow chart of FIG. 2 the first embodiment of the dual mode terminal and the charging charger dual mode traverse low power Bluetooth match traversal matching method of controlling rapid charging of the present invention.

[0043] 图3为本发明所述低功耗蓝牙控制快速充电的遍历匹配方法中双模充电终端与双模充电器遍历匹配的第二实施例的流程示意图。 [0043] The schematic flow diagram of Figure 3 a second embodiment of the dual mode terminal and the charging charger traversing dual mode low power Bluetooth match traversal matching method of controlling rapid charging of the present invention.

[0044] 图4是本发明所述低功耗蓝牙控制快速充电的遍历匹配系统较佳实施例的结构框图。 [0044] FIG. 4 is a block diagram of the preferred embodiment of the present invention, the low-power Bluetooth control rapid charging traversing a matching system.

[0045] 图5为广播信道的rou格式。 [0045] FIG. 5 is a broadcast channel rou format.

[0046] 图6为可连接非定向广播信令的广播数据包的格式。 [0046] FIG. 6 is a non-directional broadcast format can be connected to a broadcast signaling packet.

[0047] 图7为数据信道的信令的组成。 [0047] FIG. 7 is composed of data channel signaling.

[0048] 图8为自定义链路层数据信令的内容。 [0048] FIG. 8 is a custom data link layer signaling content.

具体实施方式 Detailed ways

[0049] 为使本发明的目的、技术方案及优点更加清楚、明确,以下参照附图并举实施例对本发明进一步详细说明。 [0049] To make the objectives, technical solutions and advantages of the present invention will become more apparent, clear embodiment of the present invention is described in more detail below with reference to the accompanying drawings. 应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。 It should be understood that the specific embodiments described herein are only intended to illustrate the present invention and are not intended to limit the present invention.

[0050] 首先对低功耗蓝牙协议进行详细说明如下。 [0050] First, the low-power Bluetooth protocol described in detail below.

[0051] 与传统蓝牙和高速蓝牙相比,低功耗蓝牙(Bluetooth Low Energy,BLE)的最大优点是省功耗,同时传输的数据量也比较小,适用于智能终端之间的无线业务连接。 [0051] Compared with the traditional and high-speed Bluetooth Bluetooth, Bluetooth Low Energy (Bluetooth Low Energy, BLE) The biggest advantage is that conserve power while the amount of data transferred is relatively small, for wireless connection traffic between the intelligent terminal . 低功耗蓝牙协议的开发主要在链路层(Link Layer,LL),通用访问协议层(GenericAccess Profile,GAP)和通用属性协议层(^GenericAttribute Profile,GATT)。 Bluetooth low energy development in the main link layer protocol (Link Layer, LL), Generic Access Protocol layer (GenericAccess Profile, GAP) and generic attribute protocol layer (^ GenericAttribute Profile, GATT).

[0052] 在GATT层定义了服务器(Server)和客户端(Client)。 [0052] In GATT layer defines the server (Server) and a client (Client). 服务器可以向客户端发送数据,反之客户端不能向服务器发送数据。 Server may send data to the client, whereas the client can not send data to the server.

[0053] 在中心设备(Central Device)和外围设备(Peripheral Device)这两种物理设备中,中心设备(Central Device)处于网络的中心位置,外围设备处于网络的外围位置。 [0053] In the central device (Central Device) and a peripheral device (Peripheral Device) both physical device, the central device (Central Device) at the center of the network, the peripheral device is a peripheral location of the network.

[0054] 当外围设备处于外围角色,以低功耗模式向周围广播时,同时中心设备处于中心角色,进行主动扫描。 [0054] When the peripheral device is a peripheral role in low power consumption mode to the surrounding broadcast, while the device is in the center of central role for active scanning. 中心设备向外围设备发起连接请求,两个设备建立连接。 Center device sends a connection request to the peripheral device, the two devices to establish a connection.

[0055] 当中心设备和外围设备连接成功后,意味着从GAP层进入到GATT层,原来的中心角色和外围角色转变为服务器和客户端。 [0055] When the central and peripheral device is connected successfully, means entering from GAP GATT layer to layer, the original central role and the role of the periphery into the server and the client. GATT层上的服务器和客户端与GAP层上的中心角色和外围角色是两个独立的概念,即原先的中心设备或外围设备既可以是服务器又可以是客户端,也可以同时担任服务器和客户端。 Server and peripheral and central role on the role of the client and the GAP layer on layer of GATT are two separate concepts, namely the original center or peripheral device can be both a server and can be a client, server and client can also be served at the same time end.

[0056] 根据蓝牙联盟发布的蓝牙4.0协议,链路层定义了BLE信道的信令,非连接状态下的广播方(Advertiser),扫描方(Scanner)和发起方(Initiator),连接状态下的主机(Master)和从机(Slave)。 [0056] The Bluetooth protocol Bluetooth Special release 4.0, BLE link layer defines the signaling channel, broadcaster (Advertiser) in the non-connected state, scanning (Scanner), and initiator (the Initiator), the connection state host (master) and slave (slave).

[0057] 具体来说,BLE信道的信令格式如表1所示,对广播信道和数据信道都适用。 [0057] Specifically, as shown in Table 1 BLE channel signaling formats, the broadcast channel and the data channel are applicable. 其中,引导码Preamble和接入地址Access Address对于BLE信道来说是固定的数据,协议数据单元H)U可以在BLE信道中携带信息,CRC用作循环校验。 Wherein the access preamble address Access Address and Preamble for channel BLE is fixed data, protocol data unit H) U BLE channel may carry information, CRC Cyclic Redundancy Check used.

[0058] [0058]

Figure CN104916876BD00071

[0059] 表1 [0059] TABLE 1

[0060] 关于广播信道的信令格式,广播信道的PDU (协议数据单元)由头Header和有效载荷Pay load组成,如图5所示,图5为广播信道的PDU格式。 [0060] The signaling format on a broadcast channel, a broadcast channel PDU (Protocol Data Unit) Header and payload of the head Pay load, as shown in FIG 5, FIG. 5 is a PDU format of the broadcast channel.

[0061] Header中的4比特PDU Type决定了信令的类型,如可连接非定向广播信令(ADV_IND),可连接定向广播信令(ADV_DIRECT_IND),不可连接非定向广播信令(ADV_N0NC0NN_IND),扫描请求信令(SCAN_REQ),扫描回复信令(SCAN_RSP),连接请求信令(C0NNECT_REQ),可扫描非定向广播信令(ADV_SCAN_IND),具体如表2所示。 [0061] Header 4-bit PDU Type determines the type of signaling, may be connected as a non-directional broadcast signaling (ADV_IND), may be connected directed broadcast signaling (ADV_DIRECT_IND), not connected to a non-directional broadcast signaling (ADV_N0NC0NN_IND), scan request signaling (SCAN_REQ), scanning response signaling (SCAN_RSP), a signaling connection request (C0NNECT_REQ), may be scanned non-directional broadcast signaling (ADV_SCAN_IND), particularly as shown in table 2.

[0062] [0062]

Figure CN104916876BD00072

Figure CN104916876BD00081

[0063] 表2 [0063] TABLE 2

[0064] 其中,广播方向扫描方发送可连接非定向广播信令(ADV_IND)时,可连接非定向广播信令(ADV_IND)的Payload格式如表3所示。 [0064] wherein, when the broadcast transmission scanning direction can be connected to a non-directional broadcast signaling (ADV_IND), it can be connected to a non-directional broadcast signaling (ADV_IND) Payload Format is shown in Table 3. 其中,AdvA表示广播方的蓝牙地址,AdvData表示广播数据包,最多可携带31个字节的消息。 Wherein, AdvA Bluetooth address represents a broadcast side, showing the AdvData broadcast packet, it can carry up to 31 bytes of the message.

[0065] [0065]

Figure CN104916876BD00082

[0066] 表3 [0066] TABLE 3

[0067] ADV_IND (可连接非定向广播信令)的AdvData (广播数据包)的格式如图6所示。 [0067] ADV_IND AdvData (broadcast packet) format (non-directional broadcast signaling may be connected) is shown in Fig. 其中,AD Structure表示消息段,一个广播数据包可容纳多个消息段;AD Type表示消息段的类型,如蓝牙名称,蓝牙制造商,UUID等;AD Data表示消息段的内容;Length的值表示消息段类型和消息段内容的字节总数。 Wherein, AD Structure represents a message segment, a broadcast packet may receive a plurality of message segments; AD Type indicates the type of message segments, such as Bluetooth name, Bluetooth manufacturer, the UUID and the like; AD Data representing the content of the message segment; represents a value of Length the total number of bytes in the message segment type and content of the message segment.

[0068] 已经被蓝牙联盟定义的AD Type字段如表4所示,未被定义的就是保留字段。 [0068] Bluetooth Special Interest has been defined AD Type field as shown in Table 4, a reserved field is not defined.

[0069] [0069]

Figure CN104916876BD00083

[0070] 表4 [0070] TABLE 4

[0071] 扫描方向广播方发送连接请求信令(C0NNECT_REQ)时,连接请求信令(C0NNECT_REQ)的Payload格式如表5所示。 When [0071] the scanning direction of the broadcaster transmits a connection request signaling (C0NNECT_REQ), a signaling connection request (C0NNECT_REQ) Payload Format As shown in Table 5. 其中,InitA是扫描方的蓝牙地址,AdvA是广播方的蓝牙地址,链路层数据LL Data是连接请求的内容。 Wherein, the scanning direction is InitA Bluetooth address, the broadcasting party is AdvA Bluetooth address, data link layer LL Data is the connection request.

[0072] [0072]

Figure CN104916876BD00084

[0073] 表5 [0073] TABLE 5

[0074] LL Data的格式如表6所示,其中,信道匹配ChM用来选择传输数据的信道。 [0074] LL Data format as shown in Table 6, wherein the channel matched ChM to select a channel to transmit data.

[0075] [0075]

Figure CN104916876BD00085

[0076] 表6 [0076] TABLE 6

[0077] ChM中37个比特代表数据信道(0〜36),3个比特代表广播信道(37〜39),如表7所示,3比特广播信道是将来使用保留位。 [0077] ChM 37 bits represent the data channel (0~36), three bits represent a broadcast channel (37~39), as shown in Table 7, the broadcast channel is a 3-bit reserved bits for future use.

[0078] [0078]

Figure CN104916876BD00091

[0079] 表7 [0079] TABLE 7

[0080] 扫描方向广播方发送扫描请求信令(SCAN_REQ)时,扫描请求roU的Payload格式如表8所示,其中ScanA是扫描方的蓝牙地址,AdvA是广播方的蓝牙地址。 [0080] scanning direction when the broadcaster sends a scan request signaling (SCAN_REQ), the scan request roU Payload format as shown in Table 8, wherein the scanning direction is ScanA Bluetooth address, the broadcasting party is AdvA Bluetooth address.

[0081] [0081]

Figure CN104916876BD00092

[0082] 表8 [0082] TABLE 8

[0083] 广播方向扫描方发送扫描回复信令(SCAN_RSP)时,扫描回复roU的Payload格式如表9所示,其中AdvA是广播方的蓝牙地址,ScanRspData是外围设备广播时可携带的数据包,最多支持31个字节的长度。 When the [0083] broadcast transmission scanning direction scanning response signaling (SCAN_RSP), scanning the reply roU Payload format as shown in Table 9, where the broadcaster is AdvA Bluetooth address, ScanRspData is a portable peripheral device broadcast packet, It supports up to 31 bytes in length.

[0084] [0084]

Figure CN104916876BD00093

[0085] 表9 [0085] Table 9

[0086] 链路层在广播信道中定义了广播状态(Advertising State),扫描状态(ScanningState)和发起状态(Initiating State)。 [0086] link layer defined in a broadcast channel broadcast state (Advertising State), scan status (ScanningState) and initiated state (Initiating State).

[0087] 其中,广播状态(Advertising State)可分为: [0087] The broadcast status (Advertising State) can be divided into:

[0088] 1)可连接非定向广播事件(Connectable undirected event):广播方向周围所有的扫描方广播ADV_IND信令,并声明自己处于可连接模式。 [0088] 1) can be connected to a non-directional broadcast event (Connectable undirected event): all the surrounding broadcast scanning direction ADV_IND broadcast signaling, and declare that is connectable. 广播方监听扫描方发来的SCAN_REQ信令,然后向扫描方发送SCAN_RSP信令。 Scanning broadcaster monitor the SCAN_REQ signaling sent, and then send signaling to SCAN_RSP scanning direction. 广播方也监听发起方发来的C0NNECT_REQ信令; Broadcasters also monitor the initiator sent C0NNECT_REQ signaling;

[0089] 2)可连接定向广播事件(Connectable directed event):广播方向周围特定的扫描方广播ADV_DIRECT_IND信令,并声明自己处于可连接模式。 [0089] 2) can be connected to a directed broadcast event (Connectable directed event): specific scan direction surrounding broadcast broadcasted ADV_DIRECT_IND signaling, and declare that is connectable. 广播方只监听特定发起方发来的C0NNECT_REQ信令; Broadcasters only monitor specific initiator sent C0NNECT_REQ signaling;

[0090] 3)不可连接非定向广播事件(Non-connectable undirected event):广播方向周围所有的扫描方广播ADV_N0NC0NN_IND信令,并声明自己处于不可连接模式。 [0090] 3) is not connected to a non-directional broadcast event (Non-connectable undirected event): the scanning directions of all the surrounding broadcast broadcasted ADV_N0NC0NN_IND signaling and declares itself in non-connected mode. 广播方不监听扫描方发来的信令; Broadcasters not listen signaling sent by the scanning;

[0091] 4)可扫描非定向广播事件(Scannable undirected event):广播方向周围所有的扫描方广播ADV_SCAN_IND信令。 [0091] 4) a non-directional scanning can be broadcast event (Scannable undirected event): all the surrounding broadcast scanning direction ADV_SCAN_IND broadcast signaling. 广播方只监听扫描方发来的SCAN_REQ信令,然后向扫描方发送SCAN_RSP信令。 Broadcasters only listen to the scanning direction SCAN_REQ signaling sent, and then send signaling to SCAN_RSP scanning direction.

[0092] 扫描状态(Scanning State)可分为: [0092] Scan state (Scanning State) can be divided into:

[0093] 1)被动扫描(Passive scanning):处于被动扫描模式的扫描方只能监听广播方广播的信令,不能对外发送数据; [0093] 1) passive scanning (Passive scanning): scanning is passive scanning only monitor the signaling broadcaster broadcasting, data transmission can not be made;

[0094] 2)主动扫描(Active scanning):处于主动扫描模式的扫描方监听广播方广播的信令,只对广播ADV_IND信令和ADV_SCAN_IND信令的广播方发送SCAN_REQ信令,发送完毕后继续监听广播方发来的SCAN_RSP信令。 [0094] 2) active scanning (Active scanning): scanning is active scanning mode listening broadcast signaling broadcaster transmits only signaling SCAN_REQ broadcast broadcasted ADV_IND ADV_SCAN_IND signaling and signaling, continue to monitor the transmission is completed SCAN_RSP broadcaster sent signaling.

[0095] 在发起状态(Initiating State)中: [0095] In the initiation state (Initiating State) in which:

[0096] 处于发起状态的发起方可以对广播ADV_IND信令和ADV_DIRECT_IND信令的广播方发送C0NNECT_REQ信令。 [0096] The initiator is initiated state signaling may be sent on a broadcast broadcasted C0NNECT_REQ ADV_IND ADV_DIRECT_IND signaling and signaling.

[0097] 广播信道的广播状态(Advertising State),扫描状态(Scanning State)和发起状态(Initiating State)三种状态对应的信令关系如表10所示。 [0097] The broadcast status of the broadcast channel (Advertising State), scan status (Scanning State) and initiated state (Initiating State) signaling relation corresponding to the three states as shown in Table 10.

[0098] [0098]

Figure CN104916876BD00101

[0099] 表1〇 [0099] Table 1〇

[0100] 数据信道的信令由头Header和有效载荷Payload组成,可能还包括32比特的消息完整性检查(Message Integrity Check,MIC),如图7所示。 [0100] the head of the data channel signaling and payload Payload Header composition may also include a 32-bit message integrity check (Message Integrity Check, MIC), as shown in FIG.

[0101] Header中的链路层标志(LLID)决定了数据信道的信令类型,比如链路层数据信令(LL Data H)U),链路层控制信令(LL Control H)U),如表11所示,其中,LLID为“01”的用来发送延续(Continuation)或空(Empty)的数据,LLID为“10”的用来发送起始(Start)或完整(Complete)数据。 [0101] Link Layer flag (LLID) Header determines the type of signaling data channel, such as signaling data link layer (LL Data H) U), the control signaling link layer (LL Control H) U) as shown in table 11, wherein, the LLID "01" is used to continue the data transmission (Continuations) or empty (empty) is, the LLID "10" is used to send start (start) or full (complete) data . 更多数据(More Data,MD)决定是否发送更多的数据,如果主机和从机的MD位都为“0”,就断开连接,主机停止发送数据,从机不再监听和接收数据;否者主机继续发送数据,从机继续监听并接收数据。 More data (More Data, MD) decide whether to send more data, and if the host are "0", it is disconnected from the MD-bit machine, the host stops sending data from the machine is no longer listening and receiving data; No data is sent by the host continues, continue to monitor and receive data from the machine. 长度(Length)代表Payload和MIC的字节总数,如果MIC也包括在数据信道信令里面,其中,Payload的长度不超过27字节,MIC占有固定的4字节。 Length (the Length) and the total number of bytes Payload behalf of MIC, if the MIC is also included in which a data channel signaling, wherein the length of Payload is not more than 27 bytes, occupies a fixed 4-byte MIC.

[0102] [0102]

Figure CN104916876BD00102

[0103] 表11 [0103] Table 11

[0104] LL Data PDU用来承载GATT层的数据传输任务,其内容即为传输的数据,每次不超过27字节。 [0104] LL Data PDU used to carry the data transmission tasks GATT layer, that is, the contents of the data transmission, each no more than 27 bytes. 如果数据内容超过27字节,可分多次发送,直到数据全部发送完毕为止。 If the data more than 27 bytes, divided into several transmission, until all of the data sent.

[0105] 在GAP层中,定义了4种角色:广播角色(Broadcaster Role)、观察角色(ObserverRole)、外围角色(Peripheral Role)和中心角色(Central Role)。 [0105] In the GAP layer defines four roles: the role of the broadcast (Broadcaster Role), the role of observation (ObserverRole), the role of the peripheral (Peripheral Role) and central role (Central Role).

[0106] 1)广播角色:处于广播角色的设备以低功耗模式向周围广播,但不会响应其他设备发来的连接请求,即处于广播角色的设备处于不可连接模式; [0106] 1) Broadcast roles: the role of the device in a broadcast mode to broadcast to the surrounding low power, but will not respond to other devices send a connection request, i.e. the device in a broadcast connection mode not in the role;

[0107] 2)观察角色:处于观察角色的设备可以扫描处于广播角色的设备,但不能发起连接请求,即处于观察角色的设备处于不可连接模式; [0107] 2) Observation roles: the role of the device is observed in a scanning device may broadcast roles, but can not initiate a connection request, i.e. role in the observation device is not connected mode;

[0108] 3)外围角色:处于外围角色的设备以低功耗模式向周围广播,响应其他设备发来的连接请求,即处于外围角色的设备处于可连接模式; [0108] 3) peripheral roles: the role of peripheral devices in the device is in a low power consumption mode to the surrounding broadcast, sent to other devices in response to the connection request, i.e. at the periphery of the character is connectable;

[0109] 4)中心角色:处于中心角色的设备可以扫描处于外围角色的设备,可以发起连接请求,即处于中心角色的设备处于可连接模式。 [0109] 4) a central role: the device is a scanning device may be a central role in the peripheral role, may initiate a connection request, i.e. a central role in the device is in a connected mode.

[0110] LL层与GAP层的对应关系如表12所示,其中,“E”表示不支持,“M”表示必须支持,“0”表示选择支持,“0/E”表示如果中心角色支持被动扫描,那么中心角色选择支持主动扫描,否者中心角色必须支持主动扫描。 [0110] layer and the correspondence relationship GAP LL layer as shown in Table 12, wherein, "E" indicates no support, "M" represents must support, "0" indicating the selection support, "0 / E" means that if a central role support passive scanning, the central role choose to support active scan, not those who have a central role to support active scan.

[0111] [0111]

Figure CN104916876BD00111

[0112]表12 [0112] Table 12

[0113] 本发明结合低功耗蓝牙的特点,提供了一种低功耗蓝牙控制快速充电的遍历匹配方法。 [0113] The present invention combines the characteristics of Bluetooth low energy, there is provided a low-power Bluetooth control rapid charging traversing matching method. 请参见图1,其为本发明所述低功耗蓝牙控制快速充电的遍历匹配方法较佳实施例的流程图。 See Figure 1 for an example of a flowchart, which the present invention is the Bluetooth low energy traversing matching method of controlling rapid charging preferred embodiment. 如图1所示,所述低功耗蓝牙控制快速充电的遍历匹配方法,包括步骤: As shown, the low-power Bluetooth control rapid charging traversing a matching method, comprising the steps of:

[0114] 步骤S100、双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; [0114] step S100, the dual-mode charger to the periphery in a low power mode and a non-directional manner may be connected to customize the broadcast message;

[0115] 步骤S200、双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; [0115] step S200, the dual mode terminal scans dual-mode charger charging the custom broadcast message, and acquires a list of dual-mode charger;

[0116] 步骤S300、双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; [0116] step S300, the dual mode terminal and the dual-mode charging charger charger dual mode sequential list of each connection is established, the connection is successful sending custom data link layer signaling;

[0117] 步骤S400、各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; [0117] step S400, the charger of each custom dual-mode data link layer signaling according to the pressure, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording is completed after the charging dual mode dual-mode terminals disconnect the current charger and the charger is connected to the next dual mode; dual-mode charging terminal after all been traversed charger dual mode list, and clears the number of re-traversing recorded only once until detecting voltage variation waveform, a predetermined matching condition is satisfied;

[0118] 步骤S500、双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接, [0118] step S500, the dual mode terminal and the charging satisfies the matching conditions dual mode Bluetooth low-power charger connected,

[0119] 并接收双模充电器输出的快充电流,开启快速充电。 [0119] and the dual mode receiver of the charger output fast-charge current, fast charge opening.

[0120] 在步骤S300中,所述双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,所述连接请求信令中的ChM如表13所示。 [0120] In step S300, the dual-mode and dual-mode charging terminals of each dual-mode charger charger list ChM established before the connection, sends a connection request signaling both, the connection request signaling Table 13 Fig. 在表16所示的ChM格式的连接请求信令中自定义第37位到39位为“001”,使得双模充电器能够识别出双模充电终端,同时不对正常的BLE通信产生影响。 ChM connection format as shown in Table 16 custom request signaling of 37 to 39 is "001", so that the charger can recognize that the dual mode dual-mode charging terminal, while not affecting normal BLE communication.

[0121] [0121]

Figure CN104916876BD00121

[0122] 表13 [0122] TABLE 13

[0123] 连接成功后,双模充电终端通过BLE向双模充电器发送通知消息,例如“Who is myfast charger?”,目的是让该双模充电器接收到通知消息后通过电源线加电压。 [0123] Once connected, the dual mode terminal sends a notification through the charging to the dual-mode charger BLE message, for example, "Who is myfast charger?", The purpose is to allow the dual-mode charger after receiving the notification message by adding the power line voltage.

[0124] 在步骤S300及S400中的所述自定义链路层数据信令的内容如图8所示,其中,Length为信令长度字段,Type为通知消息类型字段,Content为通知消息内容字段,Length的值表示通知消息类型(Type)和通知消息内容(Content)的字节总数;Payload的剩余字节补零。 [0124] In the step S300 and S400, the customize the contents of the data link layer signaling shown in Figure 8, wherein, Length is the length of a signaling field, Type notification message type field, Content notification message contents field , Length value indicates a notification message type (type) and the content of the notification message (the content) of the total number of bytes; zero padding the remaining bytes of Payload.

[0125] 当双模充电终端开始发送数据时,数据信道信令的Header格式如表14所示,此时,双模充电器监听并接收数据。 [0125] When the dual-mode terminal starts transmitting the charging data, the Header channel signaling formats as shown in Table 14, at this time, the dual-mode charger monitor and receive data. 其中,值为“10”的LLID代表发送完整数据,值为“Γ的MD表示还有更多数据等待发送,值为“11111”的Length表示Payload和MIC的字节总数,如果MIC也包括在数据信道的信令里面,其中,Payload的长度为27字节,MIC占有固定的4字节。 Wherein the value of "10" on behalf LLID complete data transmission, the value of "Gamma] MD indicates there is more data to be sent, the value" 11111 "indicates the Payload Length and the total number of bytes of the MIC, if the MIC is also included in the length of the channel inside the signaling data, wherein, the Payload 27 bytes, 4 bytes of the MIC occupy fixed.

[0126] [0126]

Figure CN104916876BD00122

[0127] 表14 [0127] TABLE 14

[0128] 当双模充电终端发送完毕时,数据信道信令的Header格式如表15所示,值为“0”的MD表示全部数据已经发送完毕。 [0128] When the dual mode terminal sends the charging is completed, the data channel signaling Header format as shown in Table 15, a value "0" indicates the MD all data has been sent. 此时,双模充电终端和双模充电器断开连接,双模充电终端不再发送业务数据,同时双模充电器也停止监听和接收数据。 In this case, dual-mode and dual-mode charger charging terminal is disconnected, the dual mode terminal does not send the charging data service, but also dual-mode charger stop listening and receiving data.

[0129] [0129]

Figure CN104916876BD00123

[0130] 表15 [0130] TABLE 15

[0131] 当双模充电器收到数据信道信令后,通过电源线发送一个电压变化波形,双模充电终端检测是否有电压变化波形并记录,然后与双模充电器断开BLE连接。 [0131] When the dual-mode charger receives the data channel signaling, a voltage variation waveform transmitted through the power line, the dual mode terminal detects whether the charging voltage variation and a recording waveform, and then disconnect the connection to the dual-mode charger BLE. 接着双模充电终端依次与双模充电器列表中的剩余双模充电器建立BLE连接,交互信息,记录检测到的电压变化波形个数,断开BLE连接,双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; Then dual-mode and dual-mode charging the charger terminal list sequentially establish the remaining dual-mode charger BLE connection, mutual information, recording the number of detected variation waveform voltage, disconnect BLE connection, dual-mode charging terminal traversed list after all dual-mode battery charger, and clears the number of re-traversing recorded only once until the detected voltage variation waveform, a predetermined matching condition is satisfied;

[0132] 本发明所述低功耗蓝牙控制快速充电的遍历匹配方法步骤S400中双模充电终端与双模充电器遍历匹配方式有多种,下面以其中两种遍历方式作为具体实施例来说明。 [0132] The present invention is the low-power Bluetooth control rapid charging traversing dual mode matching method in step S400 and the charging terminals to match the dual-mode charger traverse a variety of ways, two of traversal below to the particular embodiment described .

[0133] 第一实施例 [0133] First embodiment

[0134] 请参阅图2,图2为本发明所述低功耗蓝牙控制快速充电的遍历匹配方法中双模充电终端与双模充电器遍历匹配的第一实施例的流程示意图。 [0134] Referring to FIG. 2, a schematic flowchart of a first embodiment of a method of traversing matching Bluetooth low energy control rapid charging of the charging terminal and the dual-mode dual-mode traversing matching charger 2 of the present invention FIG.

[0135] 步骤S411、当前双模充电器接收所述自定义链路层数据信令,并根据所述自定义链路层数据信令对双模充电终端进行加压; [0135] step S411, the current dual-mode charger receiving the custom data link layer signaling, and a custom data link layer signaling pressurizing the dual-mode terminal according to the charge;

[0136] 步骤S412、双模充电终端实时检测电压变化波形,如果有电压变化波形则记录和存储电压变化波形个数; [0136] step S412, the dual mode terminal charge voltage variation waveform detected in real time, if the voltage variation waveform and the number of records stored in the voltage variation waveform;

[0137] 步骤S413、当双模充电终端完成S412步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; [0137] step S413, the completion of the charging terminals when the dual-mode step S412, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, until the number of dual-mode terminal completes charging waveform detecting and recording each of the dual-mode dual-mode list charger charger voltage change under pressure;

[0138] 步骤S414、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; [0138] step S414, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, the number of the voltage is determined whether the detected waveform change is 1;

[0139] 步骤S415、当检测到的电压变化波形个数为1,满足匹配条件。 [0139] step S415, the number of the voltage waveform when a change is detected to 1, satisfy the matching condition.

[0140] 在第一实施例中,双模充电终端依次与双模充电器列表中的双模充电器建立BLE连接,交互信息,记录检测到的电压变化波形个数,断开BLE连接,当遍历完所有双模充电器后,如果双模充电终端只检测到一个电压变化波形,说明该双模充电终端连接的是匹配的双模充电器,因此可以进行快速充电。 [0140] In a first embodiment, the dual-mode dual-mode charging with the charger terminals sequentially establish a dual mode list charger BLE connection, mutual information, recording the number of detected variation waveform voltage, disconnect the connection BLE, when after traversing all dual-mode charger, only if the dual mode terminal detects a charging voltage variation waveform, indicating that the dual-mode terminal connected to the charging are matched dual mode battery charger, fast charging can be performed.

[0141] 第二实施例 [0141] Second Embodiment

[0142] 请参阅图3,图3为本发明所述低功耗蓝牙控制快速充电的遍历匹配方法中双模充电终端与双模充电器遍历匹配的第二实施例的流程示意图。 [0142] Please refer to FIG. 3, FIG. 3 a schematic flow chart of a second embodiment of the method of traversing matching Bluetooth low energy control rapid charging of the charging terminal and the dual-mode dual-mode charger match traversal of the present invention.

[0143] 步骤S421、当前双模充电器接收所述自定义链路层数据信令,并根据所述自定义链路层数据信令对双模充电终端进行加压; [0143] Step S421, the current dual-mode charger receiving custom data link layer signaling, and a custom data link layer signaling pressurizing the dual-mode terminal according to the charge;

[0144] 步骤S422、双模充电终端实时检测电压变化波形,并记录和存储电压变化波形个数,如果有电压变化波形; [0144] Step S422, the dual mode terminal charge voltage variation waveform detected in real time, and recording the voltage variation waveform and the number of storage, if the voltage variation waveform;

[0145] 步骤S423、当双模充电终端完成S422步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; [0145] Step S423, the charging terminals when the dual-mode step S422 is completed, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, until the number of dual-mode terminal completes charging waveform detecting and recording each of the dual-mode dual-mode list charger charger voltage change under pressure;

[0146] 步骤S424、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; [0146] Step S424, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, the number of the voltage is determined whether the detected waveform change is 1;

[0147] 步骤S425、当检测到的电压变化波形个数大于等于2时,清零记录次数,再返回执行步骤S300; [0147] Step S425 of, when the number of voltage waveform of the detected change is greater than or equal to 2, the number of times recording is cleared, and execution returns to step S300;

[0148] S426、当检测到的电压变化波形个数为1,满足匹配条件。 [0148] S426, when the number of voltage waveform of a detected change, to satisfy the matching condition.

[0149] 在第二实施例中,当遍历完所有双模充电器后,如果双模充电终端检测到两个或两个以上电压变化波形,说明该双模充电终端连接的是双模充电器且有其他双模充电终端对该遍历过程产生干扰,即其他双模充电终端也同时遍历到了该双模充电器,以至于该双模充电器误发送电压变化波形。 [0149] In the second embodiment, after the completion of traverse all dual-mode charger, charging if the dual mode terminal detects two or more voltage variation waveform, indicating that the dual-mode terminal connected to the dual-mode charging charger and other dual-mode terminals interfere with charging the traversal, i.e., other dual-mode terminals also charged to the dual-mode charger is traversed, so that the dual-mode charger erroneous transmission voltage variation waveform.

[0150] 此时,在步骤S425中若遍历结果显示双模充电终端又检测到两个或两个以上电压变化波形,则重复步骤S300;若遍历结果显示双模充电终端只检测到一个电压变化波形,说明该双模充电终端连接的是唯一匹配的双模充电器,因此可以进行快速充电。 [0150] In this case, in step S425 if the results show that the dual mode traverse the charging terminals and the two or more detected changes in the voltage waveform, repeat step S300; if the results show that the dual-mode traversing the charging terminals a voltage change detected only waveform, indicating that the dual-mode terminal connected to the charging only matched dual mode battery charger, fast charging can be performed.

[0151] 进一步的,在所述步骤S300中还包括:当双模充电终端与双模充电器列表中的当前双模充电器连接失败时,则与双模充电器列表中的下一双模充电器进行连接。 [0151] Further, in the step S300, further comprising: when the dual-mode and dual-mode terminal charger charging the current list dual-mode charger connection fails, the dual-mode and dual-mode charger next list charger connection. 双模充电终端与双模充电器列表中的当前双模充电器连接失败的原因可能如下:当前双模充电器C已经与另外一个双模充电终端M2匹配且连接成功,此时正处于快速充电阶段,但仍以“不可连接”方式广播,所以会被双模充电终端Ml扫描到,但不能被双模充电终端Ml连接。 Dual-mode charging terminal connection failure reason to the dual-mode dual-mode charger charger current list may be as follows: the current dual-mode charger C has a dual mode charge with another terminal connected to a successful match and M2, at this time is in a rapid charging phase, but still "not connected" mode broadcasting, it is a dual-mode terminal Ml charged to scan, but can not be connected to the dual-mode charging terminal Ml.

[0152] 进一步的,所述步骤S500之后还包括: [0152] Further, after the step S500 further comprising:

[0153] 步骤S600、当快速充电过程中检测到异常,则双模充电终端将异常对应的异常日志上报至双模充电器; [0153] step S600, the rapid charging process when an abnormality is detected, the dual mode terminal charging abnormality corresponding to the abnormal log report to the dual-mode charger;

[0154] 步骤S600、当快速充电完成时,则双模充电终端向双模充电器发送电量充满信息,双模充电器接收所述电量充满信息时停止对双模充电终端供电,断开与双模充电终端连接,并返回执行步骤S100。 [0154] step S600, the charging is completed when the fast, the dual mode terminal sends a dual-mode charging the charger is fully charged information, the dual-mode dual-mode charger to stop charging terminal receiving the power supply when the full charge information, disconnect bis charging mode terminal is connected, and returns to step S100.

[0155] 可见,在双模充电器对双模充电终端的应用场景下,依据本发明所述低功耗蓝牙控制快速充电的遍历匹配方法,双模充电终端通过无线BLE双工通信和有线电源线单向通信两种方式遍历所有的双模充电器,直至找到唯一匹配的双模充电器为双模充电终端进行快速充电。 [0155] seen in the dual-mode dual-mode scenarios charger charging terminal matching method according to the Bluetooth low energy traversing the quick charge control of the present invention, a dual-mode charging terminal through a wireless duplex communication and wired power BLE two ways unidirectional communication line through all dual-mode charger, a dual mode until a unique match is found is the dual-rapid charging charger charging terminal. 在整个过程中,用户操作简便,同时,双模充电器和双模充电终端平时具有超低的待机功耗 Throughout the process, a simple user operation, while the dual-mode and dual-mode charger having a charging terminal usually ultra-low standby power consumption

[0156] 基于上述方法实施例,本发明还提供一种低功耗蓝牙控制快速充电的遍历匹配系统,如图4所示,包括: [0156] Based on the above-described embodiment of the method embodiment, the present invention also provides a system for matching traversal Bluetooth low energy fast charge control shown in Figure 4, comprising:

[0157] 广播模块100,用于双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; [0157] broadcasting module 100, a dual-mode charger to the surroundings in a low power mode and a non-directional manner may be connected to customize the broadcast message;

[0158] 列表获取模块200,用于双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; [0158] list obtaining module 200, a dual mode terminal scans broadcasting charging the charger dual mode user-defined messages, and acquires a list of dual-mode charger;

[0159] 连接及发送模块300,用于双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; [0159] connections and a sending module 300, a data link layer signaling is used to define the dual-mode and dual-mode charger charging terminals of each dual-mode list sequentially charger connection is established, the connection is successful is transmitted from;

[0160] 匹配检测模块400,用于各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; [0160] match detection module 400, for each of the dual-mode charger according to the pressurizing custom data link layer signaling, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording is completed after the dual mode terminal and the current dual-mode charging the charger is connected and disconnected to the next dual-mode charger; dual-mode charging terminal after all been traversed charger dual mode list, and clears the number of re-traversing recorded until only once the voltage detected variation waveform, predetermined matching condition is satisfied;

[0161] 充电开启模块500,用于双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充电器输出的快充电流,开启快速充电。 [0161] charge opening module 500, a dual-mode terminal and the charging satisfies the matching conditions for low-power dual-mode charger Bluetooth connection, and receives the fast-charge current output from the dual-mode battery charger, fast charging opening.

[0162] 进一步地实施例,在所述低功耗蓝牙控制快速充电的遍历匹配系统中,所述连接及发送模块中双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,其中对连接请求信令的ChM字段作修改,使得双模充电器能够识别双模充电终端。 [0162] Further embodiments, the matching system in traversing the low-power Bluetooth control rapid charging of the connection module and the transmission terminal and the dual-mode dual-mode charging each of the dual-mode charger charger list to establish a connection before each transmission request signaling connection, wherein the connection request signaling ChM field modification, the charger can recognize that the dual mode charge dual mode terminal.

[0163] 进一步地实施例,在所述低功耗蓝牙控制快速充电的遍历匹配系统中,所述自定义链路层数据信令为Payload格式,其中Payload格式的自定义链路层数据信令包括信令长度字段、通知消息类型字段和通知消息内容字段。 [0163] Further embodiments, the matching system in traversing the low-power Bluetooth control fast charging, the custom data link layer signaling is Payload format, wherein the custom Payload format signaling data link layer comprising a signaling field length, the notification message type field and a content field a notification message.

[0164] 综上所述,本发明提供了一种低功耗蓝牙控制快速充电的遍历匹配方法及系统,方法包括:双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息;双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表;双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令;各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件;双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充 [0164] In summary, the present invention provides a method of traversing a low-power Bluetooth matching quick charging and control system, comprising: a dual-mode charger to the periphery in a low power mode and a non-directional manner from broadcast connectable message definitions; dual mode terminal scans dual-mode charger charging the custom broadcast message, and acquires a list of dual-mode charger; dual-mode and dual-mode charging terminals of each dual-mode charger charger list sequentially establish a connection, after a successful connection sends a custom data link layer signaling; each dual-mode charger custom data link layer signaling according to the pressure, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform recording, recording disconnect the current dual-mode after completion of the charger and the charger is connected to the next dual mode; dual-mode charging terminal after all been traversed charger dual mode list, and clears the number of re-traversing recorded until only once the voltage detected variation waveform, predetermined matching condition is satisfied; dual mode terminal and the charging satisfies the matching conditions for low-power charger dual mode Bluetooth connection, and receives the dual mode charge 电器输出的快充电流,开启快速充电。 Fast-charge current collector output, fast charging opening. 本发明使得用户只需简单操作就能实现双模充电器自动对双模充电终端进行快速充电,同时降低了充电过程中充电器和终端的待机功耗。 The present invention enables a user operation can be achieved simply dual-mode dual-mode automatic charger charging terminal rapid charging while reducing the standby power consumption and the charger during the charging of the terminal.

[0165] 应当理解的是,本发明的应用不限于上述的举例,对本领域普通技术人员来说,可以根据上述说明加以改进或变换,所有这些改进和变换都应属于本发明所附权利要求的保护范围。 [0165] It should be appreciated that the present invention is applied is not limited to the above-described example, those of ordinary skill in the art, can be modified or converted according to the above description, all such modifications and variations shall fall within the appended claims of the invention protected range.

Claims (8)

1. 一种低功耗蓝牙控制快速充电的遍历匹配方法,其特征在于,所述方法包括步骤: A、 双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; B、 双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; C、 双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; D、 各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后, 重新遍历并清零记录次数,直至检测到只有一次电压变化波形,满足预设的匹配条件; E、 双模充电终端与满足匹配条件的双模充电器进 A quick Bluetooth low energy charging control traversal matching method, wherein said method comprising the steps of: A, dual-mode charger to the periphery in a low power mode and a non-directional manner may be connected to customize the broadcast message; B, the dual-mode charging terminal scans broadcasting dual-mode charger custom message, and acquires a list of dual-mode charger; C, dual-mode dual-mode terminal and the charging charger charger dual mode sequential list of each connection established after the connection is successfully send custom data link layer signaling; D, each of the dual-mode charger custom data link layer signaling according to the pressure, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform of the recording, the recording is completed after charging the dual-mode dual-mode terminals disconnect the current charger and the charger is connected to the next dual mode; dual mode terminal charging charger been traversed all dual-mode list again after the traversal and clearing times recorded only once until it detects the voltage variation waveform, predetermined matching condition is satisfied; E, the charging terminal and the dual-mode dual-mode matching condition satisfied charger into 低功耗蓝牙连接,并接收双模充电器输出的快充电流,开启快速充电; 所述步骤D具体包括: D11、当前双模充电器接收所述自定义链路层数据信令,并根据所述自定义链路层数据信令对双模充电终端进行加压; D12、双模充电终端实时检测电压变化波形,如果有电压变化波形则记录和存储电压变化波形个数; D13、当双模充电终端完成D12步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; D14、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; D15、当检测到的电压变化波形个数为1,满足匹配条件; 或D21、当前双模充电器接收所述自定义链路层数据信令,并 Low-power Bluetooth connection, and receives the output from the dual-mode charger fast-charge current, fast charge opening; said step D comprises: D11, the current dual-mode charger receiving custom data link layer signaling, and in accordance with the custom data link layer of the dual-mode signaling pressurizing the charging terminals; D12, the dual mode terminal charge voltage variation waveform detected in real time, if the voltage variation waveform record and store the number of voltage variation waveform; D13, when the dual after completion of the charging terminals D12 molding step, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, until the completion of the dual mode terminal detects and records the charging number of voltage variation waveform of the pressure in each of the dual-mode dual-mode list charger charger; D14, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, determines the detected voltage variation waveform whether the number is 1; D15, when the voltage detected waveform change the number 1, satisfies the matching conditions; or D21, the current dual-mode charger receiving custom data link layer signaling, and 据所述自定义链路层数据信令对双模充电终端进行加压; D22、双模充电终端实时检测电压变化波形,如果有电压变化波形则记录和存储电压变化波形个数; D23、当双模充电终端完成D22步骤后,断开与当前双模充电器的低功耗蓝牙连接,并与双模充电器列表中的下一双模充电器进行连接,直至双模充电终端完成检测并记录对双模充电器列表中每一双模充电器在加压下的电压变化波形个数; D24、当双模充电终端遍历完列表中的所有双模充电器后,判断检测到的电压变化波形个数是否为1; D25、当检测到的电压变化波形个数大于等于2时,清零记录次数,再返回执行步骤C; D26、当检测到的电压变化波形个数为1,满足匹配条件。 According to the custom data link layer signaling for dual mode terminal charging pressure; D22, the dual mode terminal charge voltage variation waveform detected in real time, if the voltage variation waveform and the number of records stored in the voltage variation waveform; D23, when after the dual mode terminal charging step D22 is completed, disconnect the current Bluetooth low power dual-mode battery charger, and the charger connected to the dual-mode dual-mode list of the next charger, the dual mode until the charging completion detection terminal and recording the number of each of the dual-mode charger list dual-mode voltage variation waveform of the pressure in the charger; D24, the charging terminals when the dual-mode dual-mode charger all been traversed in the list, determines the voltage variation detected whether the waveform numbers 1; D25, when the number of voltage waveform of the detected change is greater than or equal to 2, the number of times recording is cleared, and execution returns to step C; D26, when the voltage detected waveform change the number 1, satisfies the matching condition.
2. 根据权利要求1所述低功耗蓝牙控制快速充电的遍历匹配方法,其特征在于,所述步骤C中所述双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,其中对连接请求信令的ChM字段作修改,使得双模充电器能够识别双模充电终端。 2. The method of claim 1 traversal matching fast charging low-power Bluetooth control claim, wherein said establishing a connection step C dual-mode dual-mode battery charger and the charging terminals of each dual-mode list charger before each transmission request signaling connection, wherein the connection request signaling ChM field modification, the charger can recognize that the dual mode charge dual mode terminal.
3. 根据权利要求1所述低功耗蓝牙控制快速充电的遍历匹配方法,其特征在于,所述自定义链路层数据信令为Payload格式,其中Payload格式的自定义链路层数据信令包括信令长度字段、通知消息类型字段和通知消息内容字段。 3. The method of claim 1 traversal matching fast charging low-power Bluetooth control claim, wherein the custom data link layer signaling is Payload format, wherein the custom Payload format signaling data link layer comprising a signaling field length, the notification message type field and a content field a notification message.
4. 根据权利要求1所述低功耗蓝牙控制快速充电的遍历匹配方法,其特征在于,所述步骤C还包括:当双模充电终端与双模充电器列表中的当前双模充电器连接失败时,则与双模充电器列表中的下一双模充电器进行连接。 4. The method of claim 1 traversal matching fast charging low-power Bluetooth control claim, wherein said step C further comprises: when a dual-mode and dual-mode terminal charger charging the current list dual-mode charger when it fails, a dual-mode charger is connected to the next in the list of dual-mode charger.
5. 根据权利要求1所述低功耗蓝牙控制快速充电的遍历匹配方法,其特征在于,所述步骤E之后还包括: F、 当快速充电过程中检测到异常,则双模充电终端将异常对应的异常日志上报至双模充电器; G、 当快速充电完成时,则双模充电终端向双模充电器发送电量充满信息,双模充电器接收所述电量充满信息时停止对双模充电终端供电,断开与双模充电终端连接,并返回执行步骤A。 5. The method of claim 1 traversal matching fast charging low-power Bluetooth control claim, wherein, after said step E further comprising: F, rapid charging process when an abnormality is detected, the dual mode terminal will charge abnormality dual-mode charging stop G, when rapid charging is completed, charging the dual mode terminal transmits information to the dual-mode charger is fully charged, the battery is full dual-mode charger receiving information; exception log reports corresponding to the dual-mode charger supply terminal, the charging terminal is disconnected from the dual-mode, and returns to step A.
6. —种执行权利要求1所述方法的低功耗蓝牙控制快速充电的遍历匹配系统,其特征在于,包括: 广播模块,用于双模充电器向周围以低功耗模式及可连接非定向方式广播自定义消息; 列表获取模块,用于双模充电终端扫描广播所述自定义消息的双模充电器,并获取双模充电器列表; 连接及发送模块,用于双模充电终端与双模充电器列表中每一双模充电器依序建立连接,连接成功后则发送自定义链路层数据信令; 匹配检测模块,用于各双模充电器根据所述自定义链路层数据信令进行加压,双模充电终端检测当前电压变化波形,如果有电压变化波形则记录,记录完成后双模充电终端与当前双模充电器断开连接并与下一双模充电器进行连接;双模充电终端遍历完列表中的所有双模充电器后,重新遍历并清零记录次数,直至检测到只有一次电压变化波形 6. - Low Power Bluetooth control method of the kind performing a quick charge claim traversal matching system comprising: a broadcast module for a dual mode battery charger to the surroundings in a low power mode and may be connected non- directional manner broadcast custom messages; list acquisition means for charging the dual mode terminal scans broadcasting the dual-mode charger custom message, and acquires a list of dual-mode charger; connecting and transmission module for the dual-mode terminal and charging each dual-mode dual-mode charger charger sequence list to establish a connection, the connection is successful sending custom data link layer signaling; match detection means for each of the dual-mode charger according to the custom link layer pressure signaling data, the dual mode terminal detects the charging current waveform of a voltage change, if the voltage variation waveform is recorded, the recording is completed dual-mode charging current dual-mode terminal is disconnected and the next dual-mode charger charger connections; the dual-mode terminal charging charger been traversed all dual-mode list, and clears the number of re-traversing recorded only once until the detected voltage variation waveform 满足预设的匹配条件; 充电开启模块,用于双模充电终端与满足匹配条件的双模充电器进行低功耗蓝牙连接,并接收双模充电器输出的快充电流,开启快速充电。 Predetermined matching condition is satisfied; open charging means for charging the dual-mode terminal and match the rule low-power charger dual mode Bluetooth connection, and receives the fast-charge current output from the dual-mode battery charger, fast charging opening.
7. 根据权利要求6所述低功耗蓝牙控制快速充电的遍历匹配系统,其特征在于,所述连接及发送模块中双模充电终端与双模充电器列表中每一双模充电器建立连接前,均发送连接请求信令,其中对连接请求信令的ChM字段作修改,使得双模充电器能够识别双模充电终端。 The 6 low-power Bluetooth control rapid charging traversing a matching system as claimed in claim, characterized in that the connection is established and the transmission module connected to the charging terminal and the dual-mode dual-mode dual-mode charger charger each list before each transmission request signaling connection, wherein the connection request signaling ChM field modification, the charger can recognize that the dual mode charge dual mode terminal.
8. 根据权利要求6所述低功耗蓝牙控制快速充电的遍历匹配系统,其特征在于,所述自定义链路层数据信令为Payload格式,其中Payload格式的自定义链路层数据信令包括信令长度字段、通知消息类型字段和通知消息内容字段。 6 according to the low-power Bluetooth control rapid charging traversing a matching system as claimed in claim, wherein the custom data link layer signaling is Payload format, wherein the custom Payload format signaling data link layer comprising a signaling field length, the notification message type field and a content field a notification message.
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102882241A (en) * 2011-02-23 2013-01-16 Lg电子株式会社 Wireless charging of mobile device
CN104205901A (en) * 2012-04-03 2014-12-10 高通股份有限公司 System and method for wireless power control communication using bluetooth low energy
CN104281802A (en) * 2013-07-01 2015-01-14 宏达国际电子股份有限公司 Method for wireless charging authentication and related wireless charging system

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8694409B2 (en) * 2008-09-29 2014-04-08 Battelle Memorial Institute Using bi-directional communications in a market-based resource allocation system

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102882241A (en) * 2011-02-23 2013-01-16 Lg电子株式会社 Wireless charging of mobile device
CN104205901A (en) * 2012-04-03 2014-12-10 高通股份有限公司 System and method for wireless power control communication using bluetooth low energy
CN104281802A (en) * 2013-07-01 2015-01-14 宏达国际电子股份有限公司 Method for wireless charging authentication and related wireless charging system

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