Búsqueda Imágenes Maps Play YouTube Noticias Gmail Drive Más »
Iniciar sesión
Usuarios de lectores de pantalla: deben hacer clic en este enlace para utilizar el modo de accesibilidad. Este modo tiene las mismas funciones esenciales pero funciona mejor con el lector.

Patentes

  1. Búsqueda avanzada de patentes
Número de publicaciónCN102820970 B
Tipo de publicaciónConcesión
Número de solicitudCN 201110152638
Fecha de publicación3 Ago 2016
Fecha de presentación8 Jun 2011
Fecha de prioridad8 Jun 2011
También publicado comoCN102820970A
Número de publicación201110152638.3, CN 102820970 B, CN 102820970B, CN 201110152638, CN-B-102820970, CN102820970 B, CN102820970B, CN201110152638, CN201110152638.3
Inventores郭永宪, 陈泰全, 李志鸿
Solicitante宏达国际电子股份有限公司
Exportar citaBiBTeX, EndNote, RefMan
Enlaces externos:  SIPO, Espacenet
电子装置及其电池模块的认证方法 Electronic device and method of authentication of battery modules traducido del chino
CN 102820970 B
Resumen  traducido del chino
电子装置及其电池模块的认证方法,该电子装置包括电池模块以及电池认证模块。 Electronic device and method for authentication of a battery module, the battery module includes the electronic device and the battery authentication module. 电池模块具有认证电路以及识别电阻。 Authentication circuit and a battery module having identification resistor. 当电池模块该连接至电池认证模块时,电池认证模块依据参考电阻与识别电阻的耦接点的电压电平来获得电池模块的类型信息。 When the battery module is connected to the battery authentication module, authentication module battery according to the reference resistor coupled with the identification resistor junction voltage level to obtain a battery module type information. 电池认证模块并传送认证需求至认证电路,使认证电路通过参考电阻与识别电阻的耦接路径传送认证信息至电池认证模块。 Battery authentication module and transmitted to the certification requirements authentication circuit, make certified reference resistor circuit by the identification resistor is coupled to the battery authentication information transmission path authentication module. 其中,参考电阻内建在电池认证模块中。 Wherein the reference resistor built-in battery authentication module.
Reclamaciones(18)  traducido del chino
1.一种电子装置,包括: 一电池模块,具有一认证电路以及一识别电阻,其中该识别电阻耦接至一第一参考电压;以及一电池认证模块,具有一参考电阻耦接至一第二参考电压,当该电池模块连接至该电池认证模块时,该参考电阻与该识别电阻串接于该第一及该第二参考电压间,该电池认证模块依据该参考电阻与该识别电阻的耦接点的电压电平来获得该电池模块的一类型信息,该电池认证模块并传送一认证需求至该认证电路,使该认证电路通过该参考电阻与该识别电阻的耦接路径传送一认证信息至该电池认证模块,其中该电池认证模块包括: 一主要处理器,耦接至该参考电阻未耦接该第二参考电压的端点; 一第一辅助处理模块,耦接至该主要处理器;以及一第一分压电阻,耦接在该第一辅助处理模块与该主要处理器的耦接路径间, 其中,该第一分压电阻的电阻值小于该参考电阻的电阻值。 An electronic device, comprising: a battery module having an authentication circuit, and an identification resistor, wherein the identification resistor is coupled to a first reference voltage; and a battery authentication module, having a reference resistor coupled to a first second reference voltage, when the battery module is connected to the battery authentication module, and the identification of the reference resistor connected in series between the first resistor and the second reference voltage, the battery authentication module based on the identification of the reference resistor with the resistance coupling points of the voltage level to obtain the battery module is a type of information, the battery authentication module and transmits an authentication demand to the authentication circuit, so that the authentication circuit transmits an authentication message and coupled to the path of the identification resistor through the reference resistor the authentication module to the battery, wherein the battery authentication module comprising: a main processor, coupled to the reference resistor is not coupled to the reference voltage of the second end; a first auxiliary processing module, coupled to the main processor; and a first voltage divider resistor coupled between the coupling path of the first auxiliary processing module and the main processor, wherein the resistance value of the first voltage divider resistor is smaller than the resistance value of the reference resistor.
2.如权利要求1所述的电子装置,其中该认证电路依据一单线连接协议来传送该认证信息至该电池认证模块。 2. The electronic apparatus according to claim 1, wherein the authentication circuit based on a single connection protocol to transmit the authentication information to the authentication module battery.
3.如权利要求1所述的电子装置,其中该电池模块中,该识别电阻的一端耦接至该第一参考电压,该识别电阻的另一端耦接至该认证电路。 3. The electronic device according to claim 1, wherein the battery module, one end of the identification resistor coupled to the first reference voltage, and the other end of the identification resistor coupled to the authentication circuit.
4.如权利要求1所述的电子装置,其中该第一辅助处理模块依据读取该参考电阻与该识别电阻的耦接点的电压来获得该电池模块的该类型信息。 4. The electronic device according to claim 1, wherein the first auxiliary processing module reads the reference resistance based on the identification resistor coupled to the junction of a voltage to obtain information on the type of the battery module.
5.如权利要求4所述的电子装置,其中该第一辅助处理模块包括: 一模拟数字转换器,接收并转换模拟格式的该参考电阻与该识别电阻的耦接点的电压为数字格式,并依据数字格式的该参考电阻与该识别电阻的耦接点的电压来获得该类型信息。 5. The electronic apparatus according to claim 4, wherein the first auxiliary processing module includes: an analog to digital converter for receiving and converting the analog format of the reference resistor and the coupling points of the identification resistor voltage to a digital format, and According to the digital format of the reference resistor coupled with the identification of the contact resistance of the voltage to obtain this type of information.
6.如权利要求1所述的电子装置,其中该第一辅助处理模块提供一上拉电压至该第一分压电阻,并且,该主要处理器传送一低电平电压至该参考电阻与该识别电阻的耦接点,以藉以启动该认证需求。 6. The electronic device according to claim 1, wherein the first auxiliary processing module provides a pull-up voltage to the first dividing resistor, and the main processor sends a low-level voltage to the reference resistor and the recognition coupled contact resistance to thereby start the certification requirements.
7.如权利要求6所述的电子装置,其中该低电平电压的电压值低于该上拉电压的电压值。 7. The electronic device according to claim 6, wherein the voltage value of the low-level voltage is lower than the voltage value of the pull-up voltage.
8.如权利要求1所述的电子装置,其中该认证需求结束后,该第一辅助处理模块读取并记录该参考电阻与该识别电阻的耦接点的电压变化,且该主要处理器耦接该参考电阻的端点被设定为输入端点。 8. The electronic apparatus according to claim 1, wherein after the end of the certification requirements, the first auxiliary processing module reads and records the identification of the resistance of the reference resistor with the voltage change of the coupling points, and the main processor is coupled the reference resistor endpoint is set to the input endpoints.
9.如权利要求1所述的电子装置,其中该第一辅助处理模块内建在该主要处理器中,并通过该主要处理器的一通用型的输入输出端口的一个脚位来耦接至该第一分压电阻。 9. The electronic device according to claim 1, wherein the first auxiliary processing module is built in the main processor, and a pin through the main processor of a general-purpose input and output ports to be coupled to the first voltage divider resistors.
10.如权利要求1所述的电子装置,其中还包括: 一第二辅助处理模块;以及一第二分压电阻,其一端耦接至该参考电阻未耦接至该第二参考电压的端点,其另一端耦接至该第二辅助处理模块。 End and a second voltage dividing resistors having one end coupled to the reference resistor is not coupled to the second reference voltage; a second auxiliary processing module: 10. The electronic device as claimed in claim 1, further comprising , and the other end coupled to the second auxiliary processing module.
11.如权利要求10所述的电子装置,其中该第一辅助处理模块依据读取该参考电阻与该识别电阻的耦接点的电压来获得该电池模块的该类型信息。 11. The electronic device of claim 10, wherein the first auxiliary processing module reads the reference resistance based on the identification resistor coupling points of the voltage of the battery module to obtain the type of information.
12.如权利要求11所述的电子装置,其中该第一辅助处理模块为一模拟数字转换器,接收并转换模拟格式的该参考电阻与该识别电阻的耦接点的电压为数字格式,并依据数字格式的该参考电阻与该识别电阻的耦接点的电压来获得该类型信息。 12. The electronic device of claim 11, wherein the first auxiliary processing module is an analog to digital converter which receives and converts an analog format, the identification of the reference resistor with the resistance of the coupling points of the voltage to a digital format, and based on digital format of the reference resistor coupled junction voltage resistance of the identification to obtain this type of information.
13.如权利要求10所述的电子装置,其中该电池认证模块传送该认证需求至该认证电路时,该第二辅助处理模块提供一上拉电压至该第二分压电阻,该主要处理器并传送一低电平电压至该参考电阻与该识别电阻的耦接点,以藉以启动该认证需求。 13. The electronic device according to claim 10, wherein the battery authentication module transmits the certification requirement to the authentication circuit, the second auxiliary processing module provides a pull-up voltage to the second voltage divider resistors, the main processor and send a low voltage reference is coupled to the contact resistance of the identification resistor, thereby to start the certification requirements.
14.如权利要求13所述的电子装置,其中该低电平电压的电压值低于该上拉电压的电压值。 14. The electronic device according to claim 13, wherein the voltage value of the low-level voltage is lower than the voltage value of the pull-up voltage.
15.如权利要求10所述的电子装置,其中该第一辅助处理模块内建在该主要处理器中,并通过该主要处理器的一通用型的输入输出端口的一个脚位来耦接至该第一分压电阻。 15. The electronic device of claim 10, wherein the first auxiliary processing module is built in the main processor, and the pin through eleven main processor general-purpose input and output ports to be coupled to the first voltage divider resistors.
16.—种电子装置的电池模块的认证方法,该电子装置具有一电池认证模块,包括: 读取该电池认证模块与该电池模块的连接端点的一电压电平,并依据该电压电平来获得该电池模块的一类型信息; 由该电池认证模块传送一认证需求至该认证电路; 使该认证电路依据该认证需求通过该电池认证模块与该电池模块连接的端点传送一认证信息至该电池认证模块; 使该电池认证模块的一辅助处理模块提供一上拉电压至该电池认证模块与该电池模块的连接端点;以及并使该电池认证模块的一主要处理器传送一低电平电压至该电池认证模块与该电池模块的耦接点,以藉以启动该认证需求, 其中该低电平电压的电压值低于该上拉电压的电压值。 16.- kinds of authentication methods cell module of the electronic device, the electronic device having a battery authentication module, comprising: reading the authentication module and the battery connection end of the battery module of a voltage level, and according to the voltage level obtaining the battery module is one type of information; transmitted by the cell identity module an authentication demand to the authentication circuit; so that the authentication circuit based on the certification requirements by endpoints of the battery authentication module and the battery module connection transmits an authentication message to the cell authentication module; battery authentication module so that an auxiliary processing module provides a pull up voltage to the battery authentication module and the battery module is connected to the endpoint; battery and the authentication module and the main processor transmits a low-level voltage to a the battery authentication module and coupling points of the battery module, thereby to start the certification requirements, in which the voltage value of the low-level voltage is lower than the voltage value of the pull-up voltage.
17.如权利要求16所述的电池模块的认证方法,其中该认证电路依据一单线连接协议来传送该认证信息至该电池认证模块。 17. The authentication method of a battery module according to claim 16, wherein the authentication circuit based on a single connection protocol to transmit the authentication information to the authentication module battery.
18.如权利要求16所述的电池模块的认证方法,其中还包括: 当该认证需求结束后,使该辅助处理模块读取并记录该电池认证模块与该电池模块连接的端点上的电压变化。 18. The authentication method of the battery module of claim 16, further comprising: after the end of the certification requirements, so that the auxiliary processing module to read and record the battery voltage changes endpoint authentication module and the battery module connector on the .
Descripción  traducido del chino
电子装置及其电池模块的认证方法 Electronic device and method of authentication of battery modules

技术领域 TECHNICAL FIELD

[0001]本发明涉及一种电子装置的电池模块的认证装置及其认证方法。 [0001] The authentication apparatus and an authentication method of the present invention relates to an electronic apparatus of the battery module.

背景技术 Background technique

[0002]请参照图1,图1绘示已知的电子装置100的示意图。 [0002] Please refer to FIG. 1, FIG. 1 shows a schematic drawing of the electronic device 100 are known. 在这种的已知技术领域中,用来连接至电子装置100以提供电力的电池110中设置有一个下拉电阻RPL。 In this known art, for connection to the electronic device 100 to provide power to the battery 110 is provided with a pull-down resistor RPL. 下拉电阻RPL串接在电池110的连接端CNI与接地电压GND间。 RPL pull-down resistor connected in series between the connecting terminal and the ground voltage GND CNI battery 110. 而电子装置100中用来进行电池认证的电池认证模块120中则包括上拉电阻RPU、晶体管Ml、电阻RSDI以及处理器121及122。 The electronic device 100 used for battery authentication battery authentication module 120 includes pull-up resistor RPU, transistors Ml, resistance RSDI and a processor 121 and 122. 上拉电阻RPU连接至电压Vl以及晶体管Ml的栅极,晶体管Ml的漏极则耦接至电压V2以及处理器121,晶体管Ml的源极则耦接至接地电压GND。 Pull-up resistor RPU is connected to the gate voltage of the transistor Ml and Vl, the transistor Ml is coupled to the drain and the source voltage V2 processor 121, the transistor Ml is coupled to the pole to the ground voltage GND. 电阻RSDl则串接在端点DT及处理器122间。 RSDl resistance is connected in series between the endpoints and DT 122 processor. 另外,电池认证模块120还连接至连接端CN2。 In addition, the battery authentication module 120 is also connected to the connector terminal CN2.

[0003]当电池110通过其连接端CNl与电池认证模块120所连接的连接端CN2相互连接时,端点DT上的电压会等于电压Vl依据上拉电阻RPU以及下拉电阻RPL的电阻值来进行分压所产生的电压值。 [0003] When the battery 110 through its connection end CNl battery authentication module connected 120 connection terminal CN2 are interconnected voltage at the terminal DT on will be equal to the voltage Vl based on pull-up resistor RPU and the resistance value of the pull-down resistor RPL to divide voltage voltage value generated. 此时处理器122则读取端点DT上的电压,以区别电池110的厂牌。 In this case the processor 122 reads the voltage at the terminal DT is the difference between the battery 110 to the label. 另外,在电池110有效连接至电池认证模块120时,端点DT上的电压会降低并使晶体管Ml关闭。 In addition, the battery 110 is operably linked to the battery authentication module 120, the voltage at the terminal DT will be reduced and the transistor Ml is turned off. 因此,处理器121接收到等于电压V2的电压值,并据此判断电池110已经被连接至电子装置100上。 Thus, the processor 121 receives a voltage equal to the voltage value V2, and accordingly determines that the battery 110 has been connected to the electronic device 100.

[0004]由于在这种已知的电池识别方法下,非原厂的电池仅需要在其中配置一个与原厂电池中的下拉电阻RPL相同阻值的电阻,就可以使电池认证模块120无法辨识是否为原厂的电池。 [0004] Since in this known battery identification method, non-original batteries which need only be configured with the original battery in a pull-down resistor RPL equal value resistors, you can make the battery authentication module 120 Unrecognized whether for the original battery. 如此一来,当电子装置100对此种非原厂的电池进行充电的动作时,就有可能因为电压过充而产生安全上的顾虑。 Thus, when the electronic device 100 of such non-original battery charging operation is possible because the overcharge voltage generated safety concerns.

发明内容 SUMMARY

[0005]本发明提供一种电子装置,以对其所连接的电池模块进行认证,以避免非认证的电池模块对电子装置所可能造成的损害。 [0005] The present invention provides an electronic device, a battery module is connected to its authentication, in order to avoid damage to the non-certified battery module to the electronic device may cause.

[0006]本发明提供一种电子装置的电池模块的认证方法,以避免非认证的电池模块对电子装置所可能造成的损害。 [0006] The present invention provides an authentication method damages the battery module of an electronic device in order to avoid non-certified battery module to the electronic device may cause. .

[0007]本发明提出一种电子装置,包括电池模块以及电池认证模块。 [0007] The present invention provides an electronic apparatus including the battery module and the battery authentication module. 电池模块具有认证电路以及识别电阻,其中,识别电阻耦接至第一参考电压。 Authentication circuit and a battery module having the identification resistor, wherein the identification resistor coupled to the first reference voltage. 电池认证模块具有参考电阻耦接至第二参考电压。 Battery authentication module having a reference resistor coupled to the second reference voltage. 当电池模块该连接至电池认证模块时,参考电阻与识别电阻串接于第一及第二参考电压间。 When the battery module is connected to the battery authentication module, reference resistance and the identification resistor connected in series between the first and second reference voltage. 电池认证模块依据参考电阻与识别电阻的耦接点的电压电平来获得电池模块的类型信息。 Battery authentication module based on the identification resistor and a reference resistor coupled to the junction of the voltage level of the battery module to obtain the type of information. 电池认证模块并传送认证需求至认证电路,使认证电路通过参考电阻与识别电阻的耦接路径传送认证信息至电池认证模块。 Battery authentication module and transmitted to the certification requirements authentication circuit, make certified reference resistor circuit by the identification resistor is coupled to the battery authentication information transmission path authentication module.

[0008]本发明另提出一种具有电池认证模块的电子装置的电池模块的认证方法,包括:先读取电池认证模块与电池模块的连接端点的电压电平,并依据电压电平来获得电池模块的类型信息。 [0008] The present invention further provides an authentication method battery module having a battery authentication module of an electronic device, comprising: a first reading of the battery connection endpoint authentication module and the voltage level of the battery module, and based on the voltage level of the battery is obtained module type information. 再通过电池认证模块传送认证需求至认证电路,并使认证电路依据认证需求来通过电池认证模块与电池模块连接的端点传送认证信息至电池认证模块。 Battery authentication module transmits through the certification requirement to the authentication circuit, and certification requirements based authentication circuit are connected by a battery authentication module and the battery module endpoint authentication information transmitted to the battery authentication module.

[0009]基于上述,本发明依据电池认证模块与电池模块的连接端点上的电压电平,来获知连接至电子装置的电池模块的类型信息。 [0009] Based on the present invention is based on the voltage level of the battery connection endpoint authentication module and the battery module on to learn connected to the electronic device battery module type information described above. 并且,本发明更利用内建在电子装置中的电池认证模块,来接收由电池认证模块中的认证电路来传送的认证信息。 Further, the present invention is more electronic devices with built-in battery authentication module, authentication information is received by the battery authentication module authentication circuit to transfer. 进以更有效的确定连接至电子装置的电池模块的规格、型号及厂牌至少其中之一的类型信息,可以有效防止电子装置因使用非认证的电池模块而造成的系统的损害。 Into a more effective determination of specifications, models and brands connected to the electronic device battery module of at least one type of information, it can effectively prevent damage to the electronic device by using a non-certified battery module caused by the system.

[0010]为让本发明的上述特征和优点能更明显易懂,下文特举实施例,并配合附图作详细说明如下。 [0010] To make the above-mentioned features and advantages of the invention will become apparent, particularly cite the examples below, and with the accompanying drawings described in detail below.

附图说明 BRIEF DESCRIPTION

[0011]图1绘示已知的电子装置100的示意图。 A schematic diagram of an electronic device known [0011] 100 of FIG. 1 plotted.

[0012]图2绘示本发明一实施例的电子装置200的示意图。 [0012] Figure 2 illustrates a schematic view of the present invention, the electronic device 200 of an embodiment of the embodiment.

[0013]图3绘示本发明实施例的电池认证模块220的一实施方式的示意图。 [0013] Figure 3 illustrates a schematic view of the present invention, the battery authentication module according to an embodiment of embodiment 220.

[0014]图4A及图4B分别绘示电池认证模块与电池模块间的信息传送的波形图。 [0014] Figures 4A and 4B are waveform diagrams depicted battery authentication information transmission module and between the battery modules.

[0015]图5绘示本发明实施例的电池认证模块220的另一实施方式。 [0015] FIG. 5 illustrates another embodiment of the present invention is a battery authentication module 220 embodiment example of the way.

[0016]图6绘示本发明一实施例的电子装置的电池模块的认证方法。 [0016] Figure 6 illustrates a battery authentication method of the present invention, an electronic device module according to an embodiment.

[0017]【主要元件符号说明】 [0017] The main elements Legend]

[0018] 200:电子装置 [0018] 200: the electronic device

[0019] 210:电池模块 [0019] 210: battery module

[0020] 220:电池认证模块 [0020] 220: Battery Authentication Module

[0021] 211:认证电路 [0021] 211: authentication circuit

[0022] 221:主要处理器 [0022] 221: The main processor

[0023] 222、223、224:辅助处理模块 [0023] 222,223,224: auxiliary processing module

[0024] DT:端点 [0024] DT: Endpoint

[0025] RBAT_ID、RBAT:分压电阻 [0025] RBAT_ID, RBAT: dividing resistor

[0026] RUP:参考电阻 [0026] RUP: reference resistor

[0027] RPL:识别电阻 [0027] RPL: identification resistor

[0028] GND、V1:参考电压 [0028] GND, V1: voltage reference

[0029] CN1、CN2:连接端点 [0029] CN1, CN2: connection endpoint

[0030] PTl:路径 [0030] PTl: path

[0031] RESD:电阻 [0031] RESD: Resistance

[0032] VUP:上拉电压 [0032] VUP: pull-up voltage

[0033] T0、T1、T3、TL、TH:时间区间 [0033] T0, T1, T3, TL, TH: time interval

[0034] S610〜S630:电池模块的认证步骤 [0034] S610~S630: battery module authentication step

具体实施方式 detailed description

[0035] 请参照图2,图2绘示本发明一实施例的电子装置200的示意图。 [0035] Referring to Figure 2, Figure 2 a schematic drawing one embodiment of the present invention, the electronic device 200 of the embodiment is shown. 电子装置200包括电池模块210以及电池认证模块220 ο电池模块210具有认证电路211以及识别电阻RPL,其中,识别电阻RPL的一端耦接至参考电压GND,识别电阻RPL的另一端则耦接至认证电路211。 The electronic device 200 includes a battery module 210 and the battery authentication module 220 ο battery module 210 includes an authentication circuit 211 and an identification resistor RPL, wherein one end of the identification resistor RPL is coupled to the reference voltage of the GND, the other end of the identification resistor of RPL is coupled to the certification circuit 211. 电池认证模块220则具有参考电阻RUP耦接至参考电压Vl。 Battery authentication module 220 has a reference resistor RUP is coupled to the reference voltage Vl. 其中,电池模块210以及电池认证模块220各具有连接端点CNl以及CN2。 Wherein, the battery modules 210 and 220 each having an authentication module battery connection endpoint CNl and CN2.

[0036]当电池模块210连接至电池认证模块220时,参考电阻RUP与识别电阻RPL串接于参考电压Vl及GND间。 [0036] When the battery module 210 is connected to the battery authentication module 220, the reference resistor RUP and RPL identification resistor connected in series between the reference voltage Vl and GND. 也就是说,参考电阻RUP与识别电阻RPL耦接的端点DT上的电压,会等于参考电压Vl依据参考电阻RUP与识别电阻RPL的电阻值所进行的分压的结果。 That is, the voltage reference resistor RUP and RPL identification resistor coupled endpoint DT is equal to the reference will result divided voltage Vl RUP according to the reference resistor and the resistance value of the identification resistor RPL conducted.

[0037]在本实施例中,电池认证模块220依据端点DT上的电压电平来获得电池模块210的类型信息。 [0037] In the present embodiment, the authentication module 220 based on the battery voltage level on the endpoint DT module 210 to obtain a battery type information. 在此,所谓的类型信息包括电池模块210厂牌、型号及规格等至少其中之一的信息。 Here, the type of information includes a battery module 210 make, model and specifications at least one information. 具体一点来说明,由于具有不同类型信息的电池模块210,其内建的识别电阻RPL的大小是不相同的,因此,在当不同类型信息的电池模块210连接至电池认证模块220时,端点DT上的电压电平也会不同。 Specifically described, since the battery module having 210 different types of information, the size of its built-in identification resistor RPL is not the same, therefore, the different types of information when the battery module 210 connected to the battery authentication module 220, the endpoint DT voltage level will be different. 因此,电池认证模块220可以由端点DT上的电压电平来获取电池模块210的类型信息。 Accordingly, the battery module 220 may be certified by the voltage level on the endpoint DT battery module 210 to obtain the type of information.

[0038]另外,请特别注意的是,电池认证模块220在确知已与电池模块210产生连接后,电池认证模块220会传送认证需求至电池模块210中的认证电路211,并藉此使认证电路211可以通过参考电阻RUP与识别电阻RPL的耦接路径PTl来传送认证信息至电池认证模块220。 [0038] Also, special attention is the battery authentication module 220 is indeed known to have the battery module 210 generates a connection, battery authentication module 220 sends the authentication demand to the battery module 210 in the authentication circuit 211, and thereby enable authentication circuit 211 authentication information may be transmitted through the coupling path PTl reference resistor RUP and identification of resistance to RPL battery authentication module 220. 附带一提的是,前述的电池认证模块220会传送认证需求至电池模块210中的认证电路211也是通过同样的路径PTl来将认证需求由电池认证模块220传送至认证电路211。 Incidentally that the foregoing battery authentication module 220 will be sent to the certification requirements of the battery module 210 is the authentication circuit 211 through the same path to the certification requirements PTl certified by the battery module 220 is transmitted to the authentication circuit 211.

[0039]在此,认证电路211可以是一种可以传送数字或模拟格式的认证信息至连接端点CNl的电路。 [0039] Here, the authentication circuit 211 may transmit the authentication information may be a digital or analog format to a connection endpoint CNl circuit. 也就是说,认证电路211可以是利用串接的电阻串、可执行编码的集成电路或是电容网络来产生认证信息。 That is, the authentication circuit 211 may be connected in series using a resistor string, perform coding integrated circuit or capacitor network to generate the authentication information. 其中,当认证电路211可以是利用两个不同电平的电压间串接在电阻串,并利用电阻串所产生的分压电压,来提供生认证信息。 Wherein, when the inter-authentication circuit 211 can use two different levels of voltage in series with the resistor string, and use the divided voltage generated by the resistor string to provide students authentication information. 或者,认证电路211可以利用可执行编码的集成电路,来提供编码过的数字数据来作为的认证信息。 Alternatively, the authentication circuit 211 of the integrated circuit can perform coding to provide encoded digital data as the authentication information. 亦或是,认证电路211也可以通过电容网络来以对电压进行分压或是倍压的方式,来产生认证信息。 Also, or, authentication circuit capacitor network 211 can also be a partial pressure or voltage doubler way voltage to generate the authentication information.

[0040]由于电池认证模块220与电池模块210所具有的连接端点CN2及CNl皆为单一条导线的连接端点,因此,电池认证模块220与电池模块210间的信息传送可以通过一种所谓的单线连接协议(one-wire protocol)来进行。 [0040] Since the battery authentication module 220 and the battery module 210 has a connection endpoint CN2 and CNl are all a single wire connection end, therefore, the battery authentication module 220 and the battery module 210 may transmit information by means of a so-called single-line connection agreement (one-wire protocol) to carry out.

[0041]所谓的单线连接协议,指的是利用单一条导线来进行两个电子装置间的数据传输。 [0041] The so-called single connection agreement, referring to the use of a single wire to transmit data between two electronic devices. 简单来说,在单线连接协议的架构下,可以将用来进行数据传输的导线保持在被拉高(pull high)的状态。 Briefly, under the framework of a single connection protocol it can be used for data transmission wire holding being pulled (pull high) state. 在其中的一个电子装置(例如装置A)要传送数据给另一个电子装置(例如装置B)时,装置A可以通过拉低(pull low)导线上的电压电平一段时间以告知装置B要进行数据的传递。 In which an electronic device (such as device A) to transmit data to another electronic device (such as device B), A device can be pulled (pull low) voltage level for some time on the wire in order to be informed of the device B transferring data. 在装置B确认获知装置A要进行的数据传递动作后,装置A可以通过拉低导线上的电压电平不同的时间来传递不同(逻辑O或逻辑I)的数据。 After confirmation informed device B to device A data transfer up operation, device A can by pulling the voltage level on the wire to pass at different times in different (logic O or logic I) data.

[0042]以下请参照图3,图3绘示本发明实施例的电池认证模块220的一实施方式的示意图。 Refer to [0042] Figure 3 below, the present invention FIG 3 illustrates a schematic view of a battery module according to an embodiment of the authentication method of embodiment 220. 电池认证模块220除包括参考电阻RUP外,尚包括主要处理器221、辅助处理模块222以及分压电阻RBAT_ID。 In addition to the battery authentication module 220 comprises a reference resistor RUP, but still includes a main processor 221, the auxiliary processing module 222, and dividing resistor RBAT_ID. 主要处理器221耦接至参考电阻RUP未耦接参考电压Vl的端点DT。 The main processor 221 is coupled to a reference resistor RUP is not coupled to the reference voltage Vl endpoint DT. 辅助处理模块222则耦接至主要处理器221,且分压电阻RBAT_ID耦接在辅助处理模块222与主要处理器221的耦接路径间,其中,分压电阻RBAT_ID的电阻值小于参考电阻RUP的电阻值。 Auxiliary processing module 222 is coupled to a main processor 221, and the voltage-dividing resistor coupled between RBAT_ID coupling path 222 and the auxiliary processing module 221 of the main processor, wherein the partial pressure of the resistance value of the resistor RBAT_ID smaller than the reference resistance RUP resistance. 并且,主要处理器221可以利用其通用型的输入输出(General Purpose Input Output,GP10)端口的一个脚位来耦接至端点DT ο并通过这个与端点DT连接的通用型的输入输出)端口的一个脚位来进行数据的传收。 Further, the main processor 221 can use its general-purpose input and output (General Purpose Input Output, GP10) port of a pin to be coupled to the endpoint DT ο and through this connection with an endpoint DT universal input and output) port a pin to send and receive data.

[0043]以下将配合图2以及图3,来具体的说明本发明实施例的电子装置200的电池模块210的认证动作。 [0043] The following will cooperate with Figs. 2 and 3 to the specific description of the electronic apparatus of the embodiment of the present invention, a battery module 200 authentication operation 210. 首先,当电池模块210被连接至电子装置200时,辅助处理模块222依据读取端点DT上的电压值,来获取电池模块210的类型信息。 First, when the battery module 200 is connected to the electronic device 210, the auxiliary processing module 222 reads the voltage value based on DT endpoint, the battery module 210 to obtain the type information. 在此,辅助处理模块222可以是一个模拟数字转换器,以将模拟格式的端点DT上的电压转换成数字格式,并提供电池模块210利用数字格式的端点DT上的电压来获得电池模块210的类型信息。 Here, the auxiliary processing module 222 may be an analog to digital converter to the voltage at the terminal DT analog format on into a digital format, and provides a voltage at the terminal DT of the battery module 210 using the digital format on the obtained battery module 210 type information.

[0044] 接着,辅助处理模块222提供一个上拉电压VUP至分压电阻RBAT_ID的一端(分压电阻RBAT_ID的另一端耦接至端点DT),并且,在辅助处理模块222所提供的上拉电压VUP稳定后,主要处理器221传送低电平电压至端点DT上,以使得端点DT上的电压电平由等于上拉电压VUP的电压电平,被拉至较低的电压电平(例如等于接地电压)。 [0044] Subsequently, the auxiliary processing module 222 provides an end to pull a voltage VUP to dividing resistor RBAT_ID (the other end of the voltage divider resistors RBAT_ID is coupled to the endpoint DT), and, in the pull-up voltage of the auxiliary processing module to provide 222 after VUP stability, the main processor 221 to transmit low-level voltage on the endpoint DT, so that the voltage level on the endpoint DT equal to pull up voltage VUP voltage level is pulled to a lower voltage level (for example, equal ground voltage). 在此同时,电池模块210的认证电路221则可以检测到端点DT上的电压被拉低的状态,并藉以获知电池认证模块220所提出的认证需求。 In the meantime, the battery module 210 is certified circuit 221 can detect the voltage at the terminal DT is pulled low on the state of the battery and thereby informed of the proposed authentication module 220 certification requirements.

[0045]值得一提的是,在本实施例中,参考电阻RUP的电阻值是远大于分压电阻RBAT_ID的电阻值的。 [0045] It is worth mentioning that, in the present embodiment, the resistance value of the reference resistor RUP is much greater than the resistance value of resistor division of RBAT_ID. 在当辅助处理模块222提供的上拉电压VUP至分压电阻RBAT_ID的一端时,端点DT上的电压值几乎是由上拉电压VUP的电压值大小所决定。 When the pull-in voltage VUP when the auxiliary processing module 222 to the end of the resistor voltage divider RBAT_ID voltage value on the endpoint DT is almost determined by the pull-up voltage VUP voltage value of size. 也就是说,此时的端点DT上的电压值约等于上拉电压VUP的电压。 That is, the voltage value at this time is approximately equal to the endpoint DT on pull-up voltage VUP voltage. 在另一方面,当端点DT上的电压稳定后,主要处理器221通过传送低电平电压至端点DT上,以拉降端点DT上的电压为等于低电平电压。 On the other hand, when the voltage stability endpoint DT on the main processor 221 by sending low-level voltage to the upper endpoint DT, to pull down the voltage at the terminal DT is equal to the low level voltage.

[0046]另外,为进行静电放电的防护,主要处理器221与端点DT间串接电阻RESD。 [0046] In addition, the electrostatic discharge protection, between the main processor 221 and the endpoint DT series resistance RESD.

[0047]电池模块210的认证电路221在获知电池认证模块220所提出的认证需求后,主要处理器221则改变其耦接参考电阻RUP的端点为输入端点,而认证电路221则可以提供端点DT低电平电压,并利用拉低端点DT上的电压电平来序列地传送认证信息。 [0047] The battery module authentication circuit 221 210 After learning of the proposed battery authentication module 220 certification, the main processor 221 to change the reference resistor coupled to the input RUP endpoint endpoint and authentication circuit 221 may provide endpoint DT low voltage, and the use of low voltage level to the sequence on the endpoint DT transmit authentication information. 其中,主要处理器221可以利用其通用型的输入输出端口的一个脚位来耦接端点DT,并藉以传送电压至端点DT上或接收端点DT上的电压电平。 Among them, the main processor 221 can use its general-purpose input a pin output port coupled to the endpoint DT, and thereby transfer voltage to the voltage level on the receiving endpoint or endpoint DT DT on.

[0048]此外,在认证需求结束后,辅助处理模块222可通过监测端点DT上的电压变化,来获知电池模块210的电压变化曲线。 [0048] Furthermore, after certification, the auxiliary processing module 222 can monitor the voltage variation on the endpoint DT, to learn the battery module voltage curve 210.

[0049]附带一提的是,辅助处理模块222提供的上拉电压VUP的动作以及接收端点DT上的电压的动作可以通过主要处理器221的一个通用型的输入输出端口的一个脚位来完成。 [0049] Incidentally that auxiliary processing module 222 provides a pull-up voltage VUP action and operation of the reception on the voltage at the terminal DT can be done by the main processor of a general-purpose input and output pins 221 of a port . 换句话说,辅助处理模块222是可以内建在主要处理器221中的。 In other words, the auxiliary processing module 222 can be built into the main processor 221.

[0050]以下参照图4A及图4B,图4A及图4B分别绘示电池认证模块与电池模块间的信息传送的波形图,在图4A及图4B中,电池认证模块与电池模块间是利用单线连接协议来进行数据的传递。 [0050] with reference to FIG. 4A and 4B, 4A and 4B respectively illustrate waveform information transfer battery authentication modules and battery modules, in Fig. 4A and 4B, between battery authentication module and the battery module is the use of single connection protocol for transferring data. 其中,在图4A的绘示中,在时间区间TO中,辅助处理模块提供上拉电压VUP并使端点DT的电压电平维持在约等于上拉电压VUP的电压电平。 In Fig. 4A illustrates the time interval TO, the auxiliary processing module provides a pull-up voltage VUP and endpoint DT voltage level is maintained at about equal to pull up voltage VUP voltage level. 在时间区间Tl中,主要处理器则通过提供低电平电压来持续拉低端点DT的电压电平。 In the time interval Tl, the main processor by providing the sustained low-level voltage to the low voltage level of the DT endpoint. 在时间区间T3中,则是电池模块在时间区间Tl接收并获知认证需求已被启动,而对应以拉低端点DT的电压电平来传送认知(acknowledge)信号至电池认证模块。 In the time interval T3, the battery module is received and needs to know the authentication has been started at the time interval Tl, which corresponds to the low voltage level of the endpoint DT transmitted cognition (Acknowledge) signal to the battery authentication module.

[0051]在此请注意,在时间区间Tl及T2间,主要处理器耦接端点DT的端点被设定为输入端点,藉以接收由电池模块所主导产生的端点DT上的电压变化,以接收认证电路所传送的认证信息,并通过所接收到的认证信息来对电池模块进行认证的动作。 [0051] In this note, the time interval between Tl and T2, the main processor coupled DT endpoint endpoint is set to the input end, in order to change the endpoint DT received voltage battery modules produced on the dominated to receive circuit authentication information transmitted and received by the authentication information to authenticate the operation of the battery module.

[0052]在图4B的绘示中,认证电路可以通过拉低端点DT的电压的时间长短来传送逻辑信号的认证信息。 [0052] In Figure 4B illustrates the authentication circuit the authentication information may be transmitted logic signal DT by pulling the end of the duration of the voltage. 以波形410为例,认证电路持续拉低端点DT的电压一个时间区间TL,以藉以传送逻辑信号“I”。 Waveform 410 as an example, the endpoint authentication circuit continuously down a time interval DT the TL voltage, to thereby transmit a logic signal "I". 相对的,以波形420为例,认证电路持续拉低端点DT的电压一个时间区间TH,以藉以传送逻辑信号“O”。 Relative to the waveform 420, for example, sustained low endpoint authentication circuit voltage DT a time interval TH, to thereby transfer logic signal "O". 其中,时间区间TH长于时间区间TL。 Wherein the time interval is longer than the time interval TH TL.

[0053]当然,上述的逻辑信号“I”或“O”与端点DT的电压被拉低的时间区间的长短的对应关系是可以被变更,并非必需固定而不能改变。 [0053] Of course, the corresponding relationship between the logic signals or "O" with the endpoint voltage DT "it" is pulled low time interval length can be changed, not necessarily fixed but can not change.

[0054]以下请参照图5,图5绘示本发明实施例的电池认证模块220的另一实施方式。 [0054] The following refer to FIG. 5, FIG. 5 illustrates another embodiment of the present invention, the battery authentication module 220 Example manner embodiment. 电池认证模块220包括主要处理器221、辅助处理模块223以及224、分压电阻RBAT以及RBAT_ID以及电阻RESD。 Battery authentication module 220 includes a main processor 221, the auxiliary processing module 223 and 224, as well as RBAT_ID RBAT dividing resistors and resistor RESD. 与图3绘示的实施方式不相同的,本实施方式中,电池认证模块220包括两个辅助处理模块223以及224。 The embodiment depicted in FIG. 3 is different, in this embodiment, the battery authentication processing module 220 includes two auxiliary modules 223 and 224. 辅助处理模块223以及224的其中之一用以在进行认证需求时提供上拉电压,辅助处理模块223以及224的另一则为模拟数字转换器,用以在进行认证需求前检测端点DT上的电压值。 One processing module 223 and 224 assist in providing carrying out certification requirements for pull-up voltage, the auxiliary processing module compared to other analog to digital converters 223 and 224 for carrying out the certification requirements before the detection of the endpoint DT Voltage value.

[0055]另外,作为模拟数字转换器的辅助处理模块223或224也可以在认证需求结束后,通过监测端点DT上的电压变化,来获知电池模块210的电压变化曲线。 [0055] In addition, as an analog to digital converter auxiliary processing module 223 or 224 may be at the end of certification requirements, by monitoring the voltage change on the endpoint DT to learn the battery module voltage curve 210.

[0056]以下则请参照图6,图6绘示本发明一实施例的电子装置的电池模块的认证方法。 [0056] The following will refer to FIG. 6, FIG. 6 of the drawing module battery authentication method of an embodiment of an electronic device of the present invention is shown. 其中的电子装置具有电池认证模块,本实施例的认证步骤包括:首先,读取电池认证模块与电池模块的连接端点的电压电平,并依据电压电平来获得电池模块的类型信息(S610)。 Wherein the electronic apparatus having a battery authentication module, the authentication steps of the present embodiment includes: the first reading battery connection endpoint authentication module and the voltage level of the battery module, and based on the voltage level of the battery module to obtain the type information (S610 is) . 接着,由电池认证模块传送认证需求至认证电路(S620)。 Next, delivered by certified battery module certification requirements to authentication circuit (S620). 最后,再使认证电路依据认证需求通过电池认证模块与电池模块连接的端点传送认证信息至电池认证模块(S630),也就是依据单线连接协议来传送认证信息至电池认证模块。 Finally, make the certification requirements based authentication circuit transfer by endpoints battery authentication information authentication module and the battery module is connected to the battery authentication module (S630), which is based on a single connection protocol to transmit the authentication information to the authentication module battery.

[0057]关于本发明的电子装置的电池模块的认证方法的细节,在前述的实施例及实施方式都有详细的说明,以下恕不多赘述。 [0057] For details on the authentication method for a battery module of the electronic device of the present invention, in the foregoing embodiment and the embodiment has a detailed description, the following will not be more than repeat them.

[0058]综上所述,本发明除依据电池模块与电池认证模块的连接点上的电压大小来获知电池模块的类型信息,更通过由电池模块传送认证信息至电池认证模块。 [0058] In summary, according to the present invention, in addition to the size of the connection point voltage battery modules and battery authentication module to learn the battery module type information, but by the battery module transmits the authentication information to the authentication module battery. 并藉此由电池认证模块对电池模块进行更准确的认证,如此一来,仅有完全符合规格的原厂的电池模块可以通过认证,非原厂的电池模块将不会通过认证而被误用。 And thereby battery authentication module for more accurate battery module certification, this way, only in full compliance with the specifications of the original battery module can be certified, non-original battery module will not be misused by certified . 有效排除因使用到不良的电池而导致的电子装置的损坏的现象。 Effectively eliminate damage due to inappropriate use of the battery caused by the phenomenon of the electronic device.

[0059]虽然本发明已以实施例公开如上,然其并非用以限定本发明,本领域技术人员在不脱离本发明的精神和范围内,当可作些许的更动与润饰,故本发明的保护范围当视所附权利要求书所界定者为准。 [0059] While the invention has been disclosed embodiments described above, however it is not intended to limit the present invention, those skilled in the art without departing from the spirit and scope of the present invention can be used when a modicum of modifications and variations of the present invention is therefore when the book depends on the scope of the appended claims and their equivalents.

Citas de patentes
Patente citada Fecha de presentación Fecha de publicación Solicitante Título
CN1134874C *27 Oct 199814 Ene 2004法罗技术公司An identification arrangement and method
CN1214555A *1 Sep 199821 Abr 1999艾利森公司Rechargeable buttery pack with identification circuit, real time clock and authentication capability
US5237257 *16 Mar 199217 Ago 1993Motorola, Inc.Method and apparatus for determining battery type and modifying operating characteristics
*US2007123303 Título no disponible
Clasificaciones
Clasificación internacionalH01M10/42, H04L9/32
Eventos legales
FechaCódigoEventoDescripción
12 Dic 2012C06Publication
30 Ene 2013C10Entry into substantive examination
3 Ago 2016C14Grant of patent or utility model