CN1829037A - Battery device with wireless charging system and its method - Google Patents

Battery device with wireless charging system and its method Download PDF

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Publication number
CN1829037A
CN1829037A CN 200510051257 CN200510051257A CN1829037A CN 1829037 A CN1829037 A CN 1829037A CN 200510051257 CN200510051257 CN 200510051257 CN 200510051257 A CN200510051257 A CN 200510051257A CN 1829037 A CN1829037 A CN 1829037A
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China
Prior art keywords
battery
unit
signal
charging system
wireless
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CN 200510051257
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Chinese (zh)
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温布炎
范景锋
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陈居阳
范景锋
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Priority to CN 200510051257 priority Critical patent/CN1829037A/en
Publication of CN1829037A publication Critical patent/CN1829037A/en

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Abstract

The present invention relates to a battery device having wireless charging system. It contains battery, charging integrating unit connected with battery and installing on battery for receiving, controlling and converting signal. Said charging integrating unit further includes radio frequency unit for transmitting or receiving electric wave, signal conversion unit connected with radio frequency unit for converting frequency signal to voltage signal, control unit including deductive method program planning and connected with radio frequency unit and signal conversion unit, voltage-stabilizing unit connected with signal conversion unit and control unit, voltage-stabilizing unit, and charging management unit. The present invention updates battery into the independent operational wireless type automatically charging device.

Description

具无线充电系统的电池装置及其方法 Apparatus and method having a wireless battery charging system

技术领域 FIELD

本发明提供一种具无线充电系统的电池装置及其方法,尤其是涉及将至少一个以上的充电整合单元整合于一电池上,并形成一个以无线方式进行充电的无线充电系统。 The present invention provides apparatus and method for a battery charging system with a wireless, more particularly, to the integration unit integrating at least one charging on a battery, and the formation of a wireless charging system for charging a wireless manner.

背景技术 Background technique

电池是各种电子信息产品必备的关键元件。 Battery various electronic information products essential key elements. 而目前电子信息产品又逐渐朝移动化与无线化发展的情况下,电池扮演的电源供应角色的重要性便不言可喻了。 The case is currently gradually moving towards wireless technology and the development of electronic information products, the importance of battery power to play the role of supply will not be a self-evident. 然而,电池的电源寿命随着使用时间而逐渐递减。 However, the life of the battery power is gradually decreasing with time. 因此,电池如何在使用及充电上满足使用者的需求,随即成为一便携式电子装置在电源供应上的一项重要课题。 Therefore, how to meet the needs of users in the cell use and charging, then become an important subject a portable electronic device in the power supply. 请参阅图1,图1为现有充电装置与电池间的架构示意图。 Please refer to FIG. 1, FIG. 1 architecture diagram between the conventional battery charging apparatus. 一电池12在一电子装置上将电力使用完毕后,使用者会将以一交流市电提供给一充电装置11,然后电池12则置入或连接充电装置11进行充电,经过一段时间,电池12完成充电即可提供给使用者进行使用。 A battery 12 will power an electronic device after use, the user will be provided with an AC mains to a charging device 11, then the battery 12 into or connected to the charging device 11 for charging, after a period of time, the battery 12 It can be provided to the user of completion of charging for the use.

然而,目前在解决电池12充电上的做法上,大都以提高电池12本身的蓄电能力或对电池12的充电装置11进行充电效能的改良作为主要的解决方法。 However, the current approach in solving the battery 12 is charged, mostly to increase the storage capacity of the battery 12 itself or improved charging efficiency as the primary solution to a charging device 12 of the battery 11. 况且上述的做法上使得电池12与充电装置11在价格上无法满足使用者的期待。 Moreover, such that the battery 12 and the charging device 11 on the above approach can not satisfy the user's expectations price. 尽管电池12蓄电能力再好,也不过使电池12的使用寿命较长一些而已。 Although the battery storage capacity of 12 better, but also the battery life of 12 long some of it. 充电装置11的充电效果再佳,使用者仍得将电池12由电子装置中取出,而使电子装置无法使用。 Charging effect good charging device 11 again, the user would still have to remove the battery 12 from the electronic device, the electronic device can not be used. 借此,使用者在使用便携式电子装置(如移动电话或PDA等)时大都会采用两颗电池交替使用,即一颗电池12进行充电,而使用另一颗电池12。 Whereby, when the user using the portable electronic device (such as a mobile phone or PDA, etc.) using two batteries Metropolitan used interchangeably, i.e. a charging battery 12, a battery 12 while using another. 而在用电量较大的便携式计算机上,则使用者为了节省电池12电源常会使用交流式电源供应器作为电力来源。 And in the consumption of large portable computer, the user 12 in order to save battery power regular AC type power supply as a power source.

发明内容 SUMMARY

本发明所要解决的技术问题在于提供一种不同于现有技术的具无线充电系统的电池装置及方法,解决现有电池充电效果不佳的问题,将电池提升为一独立运作的无线式自动充电电池装置。 The present invention solves the technical problem is to provide a battery apparatus and a method different from the prior art with a wireless charging system, to solve the poor performance issues conventional battery charging, the battery was charged to enhance a wireless automatic operate independently battery means.

为了实现上述目的,本发明提供了一种具无线充电系统的电池装置及其方法。 To achieve the above object, the present invention provides an apparatus and method for a battery having a wireless charging system. 该具无线充电系统的电池装置是将至少一个以上的充电整合单元整合并装设于一电池上,并形成一个以无线方式进行充电的无线充电系统。 The radio apparatus having battery charging system is one or more charging and integration unit integrating at least a battery mounted on, and forms a wireless charging system for charging a wireless manner.

本发明的具无线充电系统的电池装置包括:一充电整合单元电性连接一电池并装设连结于该电池上。 A battery device having a wireless charging system of the present invention comprises: a charging unit electrically connected to an integrated battery connected to and mounted on the battery. 其中该电池可为一锂离子电池、一锂聚合物电池或一燃料性电池并可为一用于便携式电子装置的电池,其用于提供电源;而该充电整合单元可为一整合各元件的电路板,其用于信号的接收、控制及转换。 Wherein the battery may be a lithium ion battery, a lithium polymer battery or a fuel cell and may be of a portable electronic device for a battery, for providing power; and the charging unit may be integrated elements of an integrated a circuit board, for receiving the control signals and the conversion.

该充电整合单元包括:一信号转换单元、一稳压单元及一充电管理单元。 The charge integration unit comprises: a signal conversion unit, a voltage regulating unit, and a charging management unit. 而该充电整合单元还可包括一射频(RF)单元。 The integration of the charging unit may further include a radio frequency (RF) unit. 该射频单元用来传送或接收电波。 The radio frequency unit for transmitting or receiving radio waves. 而该信号转换单元电性连接该射频单元,接收电波信号后将一频率信号转换为一电压信号。 And the signal converting unit is electrically connected to the radio frequency unit, after receiving a radio frequency signal into a signal of a voltage signal. 而该控制单元包括有一演译法程序规划,用于对该射频单元所输出的电波信号的频率进行确认及译码后,才使该信号转换单元将该频率信号转换为电压信号。 And the control unit comprises a program interpretation process planning, for the confirmation signal and decode the frequency of the radio wave output from the radio frequency unit, so that the signal before the converting unit converts the frequency signal into a voltage signal. 其中该控制单元将判断该射频单元所接收的电波信号的频率为一0.5MHZ-2GHZ(Redial Frequency)后,才使该信号转换单元将该频率信号转换为电压信号。 Wherein the control unit determines the frequency of the radio signal received by the radio frequency unit is a 0.5MHZ-2GHZ (Redial Frequency), so that the signal before the converting unit converts the frequency signal into a voltage signal. 该稳压单元将该电压信号进行稳压作用,并利用该控制单元协助控制及调整该电压信号。 The regulation unit for the voltage signal role of regulator, and using the assist control and the control unit adjusts the voltage signal. 该充电管理单元电性连接该稳压单元、该控制单元及该电池,该充电管理单元用于管理及控制该稳压单元所提供的稳定电压信号,以对该电池进行适当的充电动作。 The charging management unit electrically connected to the regulator unit, the control unit and the battery, the charging management unit for stabilizing the voltage regulation signal management and control unit is provided, for proper operation of the battery charging.

本发明的具无线充电系统的电池装置还可装设于一罩体内,该罩体的材料可针对不同使用环境的用途,而采用耐久可靠的材料,以避免电子装置易因高低温而导致的运作失效或故障。 A battery device having a wireless charging system of the present invention may also be mounted to a body cover, the material of the shell can be used for purposes different environments, and the use of reliable and durable material to avoid the electronic device easy because of high temperature caused by operational failure or malfunction. 为了方便使用者进行功能判别,使至少一发光元件电性连接于该充电整合单元,并将该发光元件装设于该罩体上。 In order to facilitate the user performs determination function, causing at least one light emitting element is electrically connected to the charge integration unit, and the light emitting element is mounted on the cover. 同理,为了方便使用者操作本发明,可使至少一开关或至少一按键电性连接该充电整合单元,并将该开关或该按键装设于该罩体上。 Similarly, in order to facilitate user operation of the present invention, at least one switch or at least make a button electrically connected to the charge integration unit, and the switch or the button mounted on the shell. 本发明的具无线充电系统的电池装置可电性连接一便携式电子装置、电性连接一便携式计算机或电性连接一显示装置。 A battery device having a wireless charging system of the present invention may be electrically connected to a portable electronic device is electrically connected to a portable computer or a display device is electrically connected.

本发明的具无线充电系统的电池装置的运作方法,包括下列步骤:首先使该具无线充电系统的电池装置接收一频率信号;然后使该电池装置内的一控制单元进行验证与分析该频率信号;接着使该电池装置内的一信号转换单元将该频率信号转换为一电能信号;紧接着使该电池装置内的一稳压单元将该电能信号进行稳压效果;及最后使该电池装置内的一充电管理单元确认该经稳压后的该电能信号对该电池装置内的一电池进行无线充电的时机。 Methods of operation with the wireless charging system of the present invention is a battery apparatus, comprising the following steps: First, the battery apparatus which has wireless charging system for receiving a clock signal; then a control unit within the cell means the clock signal verification and analysis ; then is converted into a power signal so that a frequency signal of the signal converting unit in the battery device; followed by a regulation unit makes the battery power signal within the voltage regulation device; and finally to the battery apparatus a charging management unit confirms that the power signal after the wireless charging regulator via the time a battery within the battery unit.

另外,可利用本发明的具无线充电系统的电池装置为使用者平台,而形成一无线充电的通信系统。 Further, the battery device can be utilized with a wireless charging system of the present invention is a user platform, form a wireless communication system charging. 该通信系统包括:该具无线充电系统的电池装置及一传呼服务中心或任一无线发射源。 The communication system comprising: a battery device having the charging system and a radio paging service center or any radio emission source. 如传呼服务中心可通过至少一基站或一卫星发送一加密的电波信号给该具无线充电系统的电池装置。 The paging service center or a satellite base station at least one of an encrypted radio signal transmitted to the apparatus having a battery charging system by wireless. 而该具无线充电系统的电池装置将该加密的电波信号进行确认分析及译码后,使一频率信号能转换为一电压信号并对该具无线充电系统的电池装置的一电池进行无线充电。 After the apparatus and the battery charging system having the encrypted wireless radio signal confirmation analysis and decoding, so that a clock signal can be converted into a voltage signal having a battery, and the battery charging system for a wireless device for wireless charging.

本发明的功效,在于本发明特别适用于各种便携式电子装置(如移动电话、PDA或笔记本计算机等),只要具无线充电系统的电池装置能接收到所需的电波信号即可进行自动充电,而且该具无线充电系统的电池装置可独立形成或电性连接于一电子装置上形成一个以该具无线充电系统的电池装置为使用者平台的无线充电通信系统,可通过确认使用者的用户识别码来决定是否对该具无线充电系统的电池装置进行充电。 Efficacy of the invention, that the present invention is particularly suitable for various portable electronic devices (such as mobile phone, PDA or notebook computers, etc.), as long as the battery device with the wireless charging system can receive radio signals required to perform automatic charging, the wireless device and the battery charging system having a separately formed or may be electrically connected to form a wireless communication system to a battery charging apparatus having the wireless charging system for a user platform on the electronic device, the user may be confirmed by the user identification code to determine whether the battery apparatus having a wireless charging system for charging.

以下结合附图和具体实施例对本发明进行详细描述,但不作为对本发明的限定。 The present invention will be described in detail in conjunction with the accompanying drawings and the specific embodiments, but not limit the present invention.

附图说明 BRIEF DESCRIPTION

图1为现有充电装置与电池间的架构示意图;图2A为本发明具无线充电系统的电池装置架构示意图;图2B为本发明具无线充电系统的电池装置外观示意图;图3为本发明的具无线充电系统的电池装置的功能方块示意图;图4为本发明的具无线充电系统的电池装置的运作方法;图5为以本发明的具无线充电系统的电池装置为使用者平台形成以无线方式进行充电的通信系统的第一实施例示意图;及图6为以本发明的具无线充电系统的电池装置为使用者平台形成以无线方式进行充电的通信系统的第二实施例示意图。 Figure 1 is a schematic view of the architecture of a conventional charging apparatus between the battery; a battery charging device architecture diagram of a wireless system of the present invention, with FIG. 2A; FIG. 2B appearance of a battery device having a wireless charging system of the present invention, a schematic diagram; FIG. 3 of the present invention. a functional block with the battery charging apparatus for a wireless system schematic; battery device operating method with a wireless charging system of the present invention. FIG. 4; FIG. 5 is a wireless battery charging system having the device of the present invention is formed as a wireless internet user a first embodiment of a communication system for charging a schematic manner; and FIG. 6 is a schematic diagram of a battery charging apparatus having a radio system of the invention for forming a second embodiment of a communication system wirelessly charging the user internet.

其中,附图标记: Wherein, reference numerals:

11-充电装置,12-电池20-具无线充电系统的电池装置21-罩体22a-第一发光元件,22b-第二发光元件23-按键,24-充电整合单元25-电池24-充电整合单元,241-射频单元242-控制单元,243-信号转换单元244-稳压单元,245-充电管理单元25-电池50-便携式电子装置,51-显示屏幕70-传呼服务中心,71-卫星72-第一基站,73-第二基站60-便携式计算机,61-显示屏幕具体实施方式请参阅图2A,图2A为本发明具无线充电系统的电池装置架构示意图。 Charging means 11-, 12- cell battery device 20 having a wireless charging system 21 of the first light emitting element 22a- cover member, second light emitting element 22b-keys 23-, 24- 24- charging the battery charge integration unit 25 Integration unit, the control unit 242- 241- radio frequency unit, a signal conversion unit 244- 243- regulator unit 245- charging the battery management unit 50 of the portable electronic device 25, a display screen 51 paging service center 70, a satellite 71- 72 - a first base station, the second base station 73- portable computer 60, a display screen 61- DETAILED DESCRIPTION Referring to FIG 2A, a schematic view of a battery device having a wireless charging system architecture of the present invention, FIG. 2A. 本发明的具无线充电系统的电池装置20包括:一充电整合单元24及一电池25。 A battery device having a wireless charging system 20 of the present invention comprises: a charging a battery 24, and integration unit 25. 其特征为充电整合单元24电性连接电池25并装设连结于电池25上。 Characterized in the integration of the charging unit 24 is electrically connected to the battery 25 and the battery 25 is mounted on the coupling. 其中电池25用于提供电源,电池25可为一锂离子电池、一锂聚合物电池或一燃料性电池。 Wherein the battery 25 for supplying power, the battery 25 may be a lithium ion battery, a lithium polymer battery or a fuel battery. 当然,电池25可为一用于便携式电子装置的电池。 Of course, the battery 25 may be a battery for a portable electronic device. 而充电整合单元24可为一整合各元件的电路板,其用于信号的接收、控制及转换。 And the charging unit 24 may be integrated as an integrated circuit board of each element, for receiving a signal, and to control the conversion. 为了满足微小化的需求,该电路板以一可挠性或一软性的多层电路板为佳。 In order to meet the miniaturization requirement, the circuit board to a flexible or preferably a flexible multilayer circuit board. 另外,本发明的具无线充电系统的电池装置20可装设于一罩体21内,罩体21的材料可针对不同使用环境的用途,而采用耐久可靠或散热性佳的材料,以避免电子装置易因高低温而导致的运作失效或故障。 Further, the battery device having a wireless charging system 20 of the present invention may be mounted in a cover 21, material 21 may be used for different use environments of the cover, or the use of good heat dissipation reliably durable material to protect the electronic Operative easy because of high and low temperature caused by the failure or malfunction.

请参阅图2B,图2B为本发明具无线充电系统的电池装置外观示意图。 Refer to 2B, the appearance of a battery device having a wireless charging system of the present invention is a schematic diagram in FIG. 2B. 为了方便使用者判别具无线充电系统的电池装置20的动作状况,可使一第一发光元件22a及一第二发光元件22b电性连接于充电整合单元24,并将第一发光元件22a及第二发光元件22b装设于罩体21上。 In order to facilitate user operation of the battery condition determination means with the wireless charging system 20 to enable a first light emitting element 22a and a second light emitting element 22b is electrically connected to the charge integration unit 24, first and second light emitting elements 22a second light emitting element 22b is mounted on the cover body 21. 同理,为了方便使用者操作具无线充电系统的电池装置20,可使至少一开关或至少一按键25电性连接充电整合单元24,并将该开关或按键25装设于罩体21上。 Similarly, in order to facilitate the user operates the apparatus with a wireless charging system for a battery 20, or can at least one of at least one key switch 25 is electrically connected to the charge integration unit 24, and the switch or button 25 is mounted on the cover body 21.

请参阅图3并配合图2A,图3为本发明的具无线充电系统的电池装置的功能方块示意图。 Refer to FIG. 3, and with Figure 2A, a functional block diagram of apparatus having a wireless battery charging system of the present invention in FIG. 3. 充电整合单元24包括:一控制单元242、一信号转换单元243、一稳压单元244及一充电管理单元245。 Integrating the charging unit 24 comprises: a control unit 242, a signal conversion unit 243, a voltage regulator unit 244, and a charging management unit 245. 而充电整合单元24还可包括一射频(RF)单元241。 And the charging unit 24 may also include an integrated radio frequency (RF) unit 241. 其中该射频单元可为一射频芯片模块;该控制单元可为一控制器;该稳压单元可为一稳压芯片模块;及该充电管理单元可为一电源管理芯片。 Wherein the radio frequency unit may be a radio frequency chip module; the control unit may be a controller; the unit may be a voltage regulator regulator chip module; and the charging management unit may be a power management chip.

射频单元241可整合于整合充电单元24内,用来传送或接收电波。 RF unit 241 may be integrated on the integration of the charging unit 24, for transmitting or receiving radio waves. 而信号转换单元243电性连接射频单元241,其接收电波信号后将一频率信号转换为一电压信号,进行转换中可利用二极管及电容等元件进行整流及滤波。 The signal converting unit 243 is electrically connected to the RF unit 241, after receiving a radio frequency signal into a signal of a voltage signal, may be utilized to convert capacitance diode and a rectifying and filtering element. 而控制单元242电性连接射频单元241及信号转换单元243,控制单元242包括有一演译法程序规划,用于对射频单元241所输出的电波信号的频率进行确认及译码后,才使信号转换单元243将该频率信号转换为电压信号。 And the control unit 242 is electrically connected to the RF unit 241 and the signal converting unit 243, the control unit 242 comprises a method of interpretation of the planning procedure for the radio signal to the radio frequency output unit 241 and decoding confirmation, only a signal the conversion unit 243 converts the frequency signal into a voltage signal. 其中控制单元242将判断射频单元241所接收的电波信号的频率为一0.5MHZ-2GHZ(RedialFrequency)后,方使信号转换单元243将该频率信号转换为电压信号。 Wherein after the control unit 242 determines the frequency of the radio signal received by the RF unit 241 is a 0.5MHZ-2GHZ (RedialFrequency), side of the signal converting unit 243 frequency converts the signal into a voltage signal. 稳压单元244电性连接信号转换单元243及控制单元242,稳压单元244将该电压信号进行稳压,并利用控制单元242协助控制及调整该电压信号。 Regulation unit 244 is electrically connected to the signal conversion unit 243 and a control unit 242, a voltage regulator unit 244 signals the regulator, and the control unit 242 adjusts the voltage and the assist control signal. 充电管理单元245电性连接稳压单元244、控制单元242及电池25,充电管理单元245用于管理及控制稳压单元244所提供的稳定电压信号,以对电池25进行适当的充电动作,如电池25发生电力损耗,即开始进行充电动作,但当电池25电力饱和时,充电管理单元245必须加以控制,以避免电池25充电过度,伤害到电池25或电子装置。 Charging management unit 245 is electrically connected to the regulator unit 244, the control unit 242 and the battery 25, the charging management unit 245 for stabilizing the voltage regulation signal management and control unit 244 is provided, for proper operation of the battery 25 is charged, such as 25 battery power loss occurs, i.e., the charging operation is started, but when the power battery 25 is saturated, the charging management unit 245 must be controlled to avoid over-charging the battery 25, the battery 25 or to damage the electronic device.

请参阅图4并配合图3,图4为本发明的具无线充电系统的电池装置的运作方法。 See Figure 4 and with the operating method of a battery apparatus having a wireless charging system in FIG. 3, FIG. 4 of the present invention. 本发明的具无线充电系统的电池装置20的运作方法,包括下列步骤:步骤400,首先使具无线充电系统的电池装置20通过一射频单元241接收一频率信号;步骤402,然后使电池装置20内的一控制单元242进行验证与分析该频率信号,其中该频率信号需通过频段与加解密的验证;步骤404,接着使电池装置20内的一信号转换单元243将该频率信号转换为一电能信号;步骤406,紧接着使电池装置20内的一稳压单元244将该电能信号进行稳压效果;步骤408,最后使电池装置20内的一充电管理单元245确认该经稳压后的该电能信号对电池装置20内的一电池25进行无线充电的时机。 The operating method of a battery apparatus having a wireless charging system of the present invention 20, comprising the following steps: Step 400, first, the battery device with the wireless charging system 20 receives a clock signal through an RF unit 241; step 402, then the battery device 20 a control unit 242 in the verification and analysis of the frequency signal, wherein the verification signal frequency band required by the encryption and decryption; step 404, then the battery means a frequency signal converting unit 243 converts the signal into electric energy in a 20 signal; a step 406, followed by a battery means within the regulator unit 20244 for the voltage regulation of the power signal; a step 408, and finally a battery charging apparatus in the management unit 20245 by the confirmation of the regulator after the a power signal to the battery in the battery device 2025 for wirelessly charging time.

另外,可利用本发明的具无线充电系统的电池装置20为使用者平台,本发明的具无线充电系统的电池装置20可电性连接一便携式电子装置、电性连接一便携式计算机、或电性连接一显示装置而形成一以无线方式进行充电的通信系统。 Further, the battery device can be utilized with a wireless charging system of the present invention is the platform 20 for a user, a battery device 20 may be electrically with a wireless charging system of the present invention is connected to a portable electronic device is electrically connected to a portable computer, or electrically connecting a display device to form a communication system for wirelessly charging. 请参阅图5并配合图2A,图5为以本发明的具无线充电系统的电池装置为使用者平台形成以无线方式进行充电的通信系统的第一实施例。 See Figure 5 and with Figure 2A, FIG. 5 is a battery charging apparatus having a radio system of the invention for forming a first embodiment of a communication system wirelessly charging the user internet. 通信服务系统包括:至少一具无线充电系统的电池装置20及一传呼服务中心60(或一无线发射源)。 Communication service system comprising: at least a 20, and a paging service center 60 (or a wireless transmission source) of the battery charging apparatus for a wireless system. 具无线充电系统的电池装置20电性连接一显示装置51并整合于一便携式电子装置50中,而传呼服务中心70通过一卫星71、一第一基站72或一第二基站73发送一加密的电波信号(如用户识别码)给具无线充电系统的电池装置20的便携式电子装置50。 A battery device having a wireless charging system 20 is electrically connected to a display device 51 and integrated into a portable electronic device 50, the paging service center 70 via a satellite 71, a first base station 72 or a second base station 73 transmits an encrypted battery device radio signals (e.g., user ID) with the wireless charging system for a portable electronic device 50 20. 而具无线充电系统的电池装置20将该加密的电波信号进行确认分析(如频段确认)及译码(如验证用户识别码)后,才能使一频率信号能转换为一电压信号并对具无线充电系统的电池装置20内的一电池25进行无线充电。 After the battery device 20 with the encrypted wireless charging system for a radio signal to confirm the analysis (e.g., band confirmed) and decoding (e.g., verify the user identification code), in order to make the frequency of a signal can be converted into a voltage signal having a radio and a battery in the battery charging apparatus 20 of the system 25 wireless charging.

请参阅图6并配合图2A,图6为以本发明的具无线充电系统的电池装置为使用者平台形成以无线方式进行充电的通信系统的第二实施例。 Refer to FIG. 6 and in line with FIGS. 2A, FIG. 6 is a battery device having a wireless charging system of the present invention for forming a second embodiment of a communication system wirelessly charging the user internet. 其中将具无线充电系统的电池装置20电性连接一显示屏幕61并整合于一便携式计算机60中,即可进行便携式计算机60无线式自动充电的功能。 20 wherein the electrically charging the battery device having wireless connection system 61 and a display screen integrated in a portable computer 60 can be a wireless portable computer 60 automatic charging function.

本发明的具无线充电系统的电池装置改变现有电池充电领域中,以改良电池本身的充电特性或提高外部充电装置的充电功效作为研究重点的问题,而将电池提升为一独立运作的无线式自动充电电池装置。 A battery device having a wireless charging system of the present invention changes the prior art battery charging, to the charging characteristics of the battery itself or modified to improve the effectiveness of the external charging device as a charging Problems focus, and enhance the battery as a wireless independent of Formula automatic battery charging apparatus. 因此本发明特别适用于各种便携式电子装置(如移动电话、PDA或笔记本计算机等),只要本发明的具无线充电系统的电池装置能接收到所需的电波信号即可进行自动充电的功能。 Thus, the present invention is particularly suitable for various portable electronic devices (such as mobile phone, PDA or notebook computers, etc.), as long as the wireless device with a battery charging system according to the present invention can receive radio signals required to perform automatic charging function. 特别是,该具无线充电系统的电池装置可独立形成或电性连接于一电子装置上形成一个以该具无线充电系统的电池装置为使用者平台的无线充电通信系统,可通过确认使用者的用户识别码来决定是否对该具无线充电系统的电池装置进行充电。 In particular, the apparatus having a wireless battery charging system, or may be separately formed electrically connected to form a wireless communication system to a battery charging apparatus having the wireless charging system for a user platform on the electronic device, the user may be confirmed by user identification code to determine whether the battery apparatus having a wireless charging system for charging.

当然,本发明还可有其他多种实施例,在不背离本发明精神及其实质的情况下,熟悉本领域的技术人员可根据本发明作出各种相应的改变和变形,但这些相应的改变和变形都应属于本发明权利要求的保护范围。 Of course, the present invention may have various other embodiments without departing from the spirit and the essence of the present invention, those skilled in the art can make various corresponding modifications and variations according to the present invention, these corresponding changes and variations should fall within the scope of the claims of the invention.

Claims (42)

1.一种具无线充电系统的电池装置,其特征在于,包括:一电池,用于提供电源;及一充电整合单元,电性连接该电池并装设连结于该电池上,该充电整合单元用于信号的接收、控制及转换;其中该充电整合单元包括:一射频单元,用来传送或接收电波;一信号转换单元,电性连接该射频单元,用于将一频率信号转换为一电压信号;一控制单元,包括有一演绎法程序规划,该控制单元电性连接该射频单元及该信号转换单元,用于对该射频单元所输出的电波信号的频率进行确认分析及译码后,令该信号转换单元将该频率信号转换为该电压信号;一稳压单元,电性连接该信号转换单元及该控制单元,该稳压单元对该电压信号进行稳压作用,并利用该控制单元协助控制及调整该电压信号;及一充电管理单元,电性连接该稳压单元、该控制单元及该电池, A radio apparatus having a battery charging system, characterized by comprising: a battery for supplying power; and a charge integration unit, and electrically connected to the battery mounted on the battery connected to the charge integration unit receiving a signal, and a converter control; wherein the charge integration unit comprises: a radio frequency unit for transmitting or receiving radio waves; a signal converting unit electrically connected to the radio frequency unit configured to convert the signal to a voltage-frequency signal; a control unit including a deduction planning procedure, the control unit is electrically connected to the RF unit and the signal conversion unit for the analysis and decoding of the confirmation frequency radio signals outputted from the RF unit, so that the signal converting unit that converts the frequency signal a voltage signal; a voltage regulating means, electrically connected to the signal converting unit and the control unit, the regulator unit for regulation effect on the voltage signal, and using the assist control unit and adjusting the control voltage signal; and a charging management unit electrically connected to the regulator unit, the control unit and the battery, 充电管理单元用于管理及控制该稳压单元所提供的稳定电压信号,以对该电池进行适当的充电动作。 A charging management unit for stabilizing the voltage regulation signal management and control unit is provided, for proper operation of the battery charging.
2.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池为一锂离子电池、一锂聚合物电池或一燃料性电池。 2. The battery charging system having a wireless device according to claim 1, wherein the battery is a lithium ion battery, a lithium polymer battery or a fuel battery.
3.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池为一用于便携式电子装置的电池。 3. The wireless charging system having a battery device according to claim 1, wherein the battery is a battery for a portable electronic device.
4.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该充电整合单元为一电路板。 4. The battery charging system having a wireless device according to claim 1, wherein the charging unit is an integrated circuit board.
5.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该射频单元为一射频芯片模块。 The battery charging system having a wireless device according to claim 1, wherein the radio unit is an RF-chip module.
6.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该控制单元为一微控制器。 6. A battery charging system having a wireless device according to claim 1, wherein the control unit is a microcontroller.
7.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该稳压单元为一稳压芯片模块。 7. The battery charging system having a wireless device according to claim 1, characterized in that the regulator unit is a voltage regulator chip module.
8.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该充电管理单元为一电源管理芯片。 8. A battery charging system having a wireless device according to claim 1, wherein the charging management unit is a power management chip.
9.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池装置还装设于一罩体内。 9. The battery charging system having a wireless device according to claim 1, characterized in that the apparatus further battery mounted to a body cover.
10.根据权利要求9所述的具无线充电系统的电池装置,其特征在于,该罩体的材料为一散热性佳的材料。 10. The battery charging system having a wireless device according to claim 9, wherein the shell material is a good heat dissipation material.
11.根据权利要求9所述的具无线充电系统的电池装置,其特征在于,还包括至少一发光元件装设于该罩体上,该发光元件电性连接该充电整合单元。 11. The battery charging system having a wireless device according to claim 9, characterized in that, further comprising at least one light emitting element is mounted on the cover, the light emitting element is electrically connected to the charge integration unit.
12.根据权利要求9所述的具无线充电系统的电池装置,其特征在于,还包括至少一开关或至少一按键装设于该罩体上,该开关或该按键电性连接该充电整合单元。 12. The battery charging system having a wireless device according to claim 9, characterized in that at least one further comprising at least one key or switch is mounted on the cover, or the key of the switch is electrically connected to the charge integration unit .
13.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池装置还电性连接一便携式电子装置。 13. A battery charging system having a wireless device according to claim 1, wherein the battery further electrically connected to a portable electronic device.
14.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池装置还电性连接一便携式计算机。 14. A battery charging system having a wireless device according to claim 1, wherein the battery further electrically connected to a portable computer.
15.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该电池装置还电性连接一显示装置。 15. A battery charging system having a wireless device according to claim 1, wherein the battery further electrically connected to a display device.
16.根据权利要求1所述的具无线充电系统的电池装置,其特征在于,该控制单元将判断该射频单元所接收的电波信号的频率系为0.5MHZ-2GHZ后,令该信号转换单元将该频率信号转换为该电压信号。 16. A battery charging system having a wireless device according to claim 1, wherein the control unit determines the frequency of the radio signal based on the received radio frequency unit after 0.5MHZ-2GHZ, enabling the signal conversion unit this frequency signal into the voltage signal.
17.一种具无线充电系统的电池装置,其特征在于,包括:一电池,用于提供电源;及一充电整合单元,电性连接该电池并装设连结于该电池上,该充电整合单元用于信号的接收、控制及转换;其中该充电整合单元包括:一信号转换单元,接收一频率信号,用于将该频率信号转换为一电压信号;一控制单元,包括有一演绎法程序规划,该控制单元电性连接该信号转换单元,用于对频率信号进行确认分析及译码后,令该信号转换单元将该频率信号转换为该电压信号;一稳压单元,电性连接该信号转换单元及该控制单元,该稳压单元将该电压信号进行稳压作用,并利用该控制单元协助控制及调整该电压信号;及一充电管理单元,电性连接该稳压单元、该控制单元及该电池,该充电管理单元用于管理及控制该稳压单元所提供的稳定电压信号,以对该电池进 17. An apparatus having a wireless battery charging system, characterized by comprising: a battery for supplying power; and a charge integration unit, and electrically connected to the battery mounted on the battery connected to the charge integration unit receiving a signal, and a converter control; wherein the charge integration unit comprises: a signal converting unit for receiving a clock signal, for dividing the frequency signal into a voltage signal; a control unit including a deduction procedure plan, the control unit is electrically connected to the signal conversion unit for confirmation signal after the frequency analysis and decoding, enabling the signal converting unit that converts the frequency signal a voltage signal; a voltage regulating means, electrically connected to the signal converter unit and the control unit, the regulator unit for regulation effect of the voltage signal, and using the assist control and the control unit adjusts the voltage signal; and a charging management unit electrically connected to the regulator unit and the control unit the battery, the charging management unit for managing and controlling the stabilization voltage signal provided by the regulation unit, in order to enter the cell 适当的充电动作。 Proper charging operation.
18.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池为一锂离子电池、一锂聚合物电池或一燃料性电池。 18. A battery charging system having a wireless device according to claim 17, wherein the battery is a lithium ion battery, a lithium polymer battery or a fuel battery.
19.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池为一用于便携式电子装置的电池。 19. A battery charging system having a wireless device according to claim 17, wherein the battery is a battery for a portable electronic device.
20.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该充电整合单元为一电路板。 20. The apparatus as claimed in claim having a wireless battery charging system of claim 17, wherein the charging unit is an integrated circuit board.
21.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,还包括一射频单元电性连接该充电整合单元的该信号转换单元。 21. A battery charging system having a wireless device according to claim 17, characterized in that, further comprising a radio frequency unit electrically connected to the signal conversion unit to the charge integration unit.
22.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该控制单元为一微控制器。 22. A battery charging system having a wireless device according to claim 17, wherein the control unit is a microcontroller.
23.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该稳压单元为一稳压芯片模块。 23. A battery charging system having a wireless device according to claim 17, characterized in that the regulator unit is a voltage regulator chip module.
24.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该充电管理单元为一电源管理芯片。 24. A battery charging system having a wireless device according to claim 17, wherein the charging management unit is a power management chip.
25.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池装置装设于一罩体内。 25. The apparatus as claimed in claim having a wireless battery charging system of claim 17, characterized in that the battery device mounted in a housing body.
26.根据权利要求25所述的具无线充电系统的电池装置,其特征在于,该罩体质系为一散热性佳的材料。 26. A battery charging system having a wireless device according to claim 25, wherein the cover system is a physical good heat dissipation material.
27.根据权利要求25所述的具无线充电系统的电池装置,其特征在于,还包括至少一发光元件装设于该罩体上,该发光元件电性连接该充电整合单元。 27. The device of claim 25 having a wireless battery charging system according to claim, wherein further comprising at least one light emitting element is mounted on the cover, the light emitting element is electrically connected to the charge integration unit.
28.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,还包括至少一开关或至少一按键装设于该罩体上,该开关或该按键电性连接该充电整合单元。 28. A battery charging system having a wireless device according to claim 17, wherein further comprising at least one switch or at least one key mounted on the cover, or the key of the switch is electrically connected to the charge integration unit .
29.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池装置电性连接一便携式电于装置。 29. A battery charging system having a wireless device according to claim 17, characterized in that the battery device is electrically connected to a portable electronic device.
30.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池装置电性连接一便携式计算机。 30. The battery charging apparatus having a radio system according to claim 17, wherein the battery means is electrically connected to a portable computer.
31.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该电池装置电性连接一显示装置。 31. The battery charging apparatus having a radio system according to claim 17, wherein the battery means is electrically connected to a display device.
32.根据权利要求17所述的具无线充电系统的电池装置,其特征在于,该控制单元将判断该射频单元所接收的电波信号的频率为一0.5MHZ-2GHZ后,令该信号转换单元将该频率信号转换为该电压信号。 32. A battery charging system having a wireless device according to claim 17, wherein the control unit determines the frequency of the radio signal received by the radio frequency unit after a 0.5MHZ-2GHZ, enabling the signal conversion unit this frequency signal into the voltage signal.
33.一种具无线充电系统的电池装置的运作方法,其特征在于,该方法包括下列步骤:(a)使一具无线充电系统的电池装置接收一频率信号;(b)使该电池装置内的一控制单元进行验证与分析该频率信号;(c)使该电池装置内的一信号转换单元将该频率信号转换为一电能信号;(d)使该电池装置内的一稳压单元将该电能信号进行稳压效果;及(e)使该电池装置内的一充电管理单元确认该经稳压后的该电能信号对该电池装置内的一电池进行自动充电的时机。 The method of operation of apparatus 33. A battery charging system having a radio, wherein, the method comprising the steps of: (a) means a battery charging system for receiving a radio frequency signal; (b) the inner battery device the control unit performs a verification and analysis of the frequency signal; (c) so that a signal conversion unit in the battery device converts the frequency signal into a power signal; (d) a voltage regulator to make the battery in the device unit effect power regulation signal; and (e) the pair management unit in charge of the battery power of the acknowledgment signal means the regulator is automatically charged by the time a battery in the battery device.
34.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该电池装置通过一射频单元接收该频率信号。 34. The operating method as claimed in claim having a wireless battery charging system apparatus of claim 33, wherein the battery means to receive the clock signal via a radio frequency unit.
35.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该控制单元为一微控制器。 35. The operating method as claimed in claim having a wireless battery charging system apparatus of claim 33, wherein the control unit is a microcontroller.
36.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该稳压单元为一稳压芯片模块。 36. The operating method as claimed in claim having a wireless battery charging system apparatus of claim 33, wherein the regulator unit is a voltage regulator chip module.
37.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该充电管理单元为一电源管理芯片。 37. The operating method as claimed in claim having a wireless battery charging system apparatus of claim 33, wherein the charging management unit is a power management chip.
38.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该电池装置装设于一罩体内。 38. The operation method of claim 33 having a wireless battery charging system apparatus according to claim, characterized in that the battery device mounted in a housing body.
39.根据权利要求38所述的具无线充电系统的电池装置的运作方法,其特征在于,该罩体的材料为一散热性佳的材料。 39. A method of operating apparatus 38 having a wireless battery charging system according to claim, wherein the shell material is a good heat dissipation material.
40.根据权利要求33所述的具无线充电系统的电池装置的运作方法,其特征在于,该控制单元将验证与分析该频率信号的频率为一0.5MHZ-2GHZ后,令该信号转换单元将该频率信号转换为该电能信号。 40. The operation method of claim 33 having a wireless battery charging system of apparatus as claimed in claim, wherein the control unit analyzes the frequency of the authentication and the frequency of a signal after 0.5MHZ-2GHZ, enabling the signal conversion unit the frequency of the signal into the power signal.
41.一种以无线方式进行充电的通信系统,其特征在于,以一具无线充电系统的电池装置为使用者平台,该通信系统包括:一传呼服务中心或无线发射源,该传呼服务中心或该无线发射源通过至少一基站或一卫星发送一加密的电波信号给该具无线充电系统的电池装置;及一具无线充电系统的电池装置,其中该电池装置包括:一电池,用于提供电源;及一充电整合单元,电性连接该电池并装设连结于该电池上,该充电整合单元用于信号的接收、控制及转换;其中该充电整合单元包括:一射频单元,用来接收该加密的电波信号;一信号转换单元,电性连接该射频单元,用于将一频率信号转换为一电压信号;一控制单元,包括有一演绎法程序规划,该控制单元电性连接该射频单元及该信号转换单元,用于对该射频单元所输出的该加密的电波信号进行确认分 41. A method for charging a communication system in a wireless manner, wherein the battery means to a wireless charging system for internet users, the communication system comprising: a paging service center or wireless transmission source, the paging service center or the wireless base station through at least one emission source or a satellite radio wave transmitting an encrypted signal to the radio apparatus having battery charging system; wireless device and a battery charging system, wherein the battery means comprises: a battery for supplying power ; integration and a charging unit, and electrically connected to the battery mounted on the battery connected to the charging unit for receiving the integration signal, and a converter control; wherein the charge integration unit comprises: a radio frequency unit for receiving the encrypted radio signal; a signal converting unit is electrically connected to the radio frequency unit, for a frequency signal into a voltage signal; a control unit including a deduction program planning, the control unit is electrically connected to the radio frequency unit and the signal converting unit configured to confirm the sub-unit of the RF output encrypted radio signal 及译码后,令该信号转换单元将该频率信号转换为该电压信号;一稳压单元,电性连接该信号转换单元及该控制单元,该稳压单元将该电压信号进行稳压作用,并利用该控制单元协助控制及调整该电压信号;及一充电管理单元,电性连接该稳压单元、该控制单元及该电池,该充电管理单元用于管理及控制该稳压单元所提供的稳定电压信号,以对该电池进行适当的充电动作。 And after decoding, enabling the signal converting unit that converts the frequency signal a voltage signal; a voltage regulating means, electrically connected to the signal converting unit and the control unit, the regulator unit for regulation effect of the voltage signal, and using the assist control and the control unit adjusts the voltage signal; and a charging management unit electrically connected to the regulator unit, the control unit and the battery, the charging management unit for managing and controlling the regulation unit provided regulated voltage signal, for proper operation of the rechargeable battery.
42.根据权利要求41所述的以无线方式进行充电的通信系统,其特征在于,该控制单元将判断该射频单元所接收的电波信号的频率为一0.5MHZ-2GHZ后,令该信号转换单元将该频率信号转换为该电压信号。 42. The wireless manner for the communication system 41 is charged, wherein the control unit determines the frequency of the radio signal received by the radio frequency unit after a 0.5MHZ-2GHZ, enabling the signal conversion unit as claimed in claim the frequency of the signal into the voltage signal.
CN 200510051257 2005-03-03 2005-03-03 Battery device with wireless charging system and its method CN1829037A (en)

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