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    • 2. 发明授权
    • Electronic device and method for driving an internal function block of a processor of the electronic device to operate in a linear region
    • 用于驱动电子设备的处理器的内部功能块以在线性区域中操作的电子设备和方法
    • US08466817B2
    • 2013-06-18
    • US13282150
    • 2011-10-26
    • Wei-Chih ChangYu-Peng LaiChing-Chung Hung
    • Wei-Chih ChangYu-Peng LaiChing-Chung Hung
    • H03M1/10
    • H03M1/186
    • An electronic device and a method for driving an internal function block of a processor of the electric device to operate in a linear region. The electronic device comprises a processor having two multiple purpose pins (MPP1 and MPP2), an external device connection port, and two resistance elements. The external device connection port is further connected to the MPP1 and at a tested voltage. The first resistance element is connected between a high level voltage and the external device connection port. The second resistance element is connected between the external device connection port and the MPP2. The processor is configured to output the high or low level voltage at MPP2 when the tested voltage is in a non-linear operating region, to guarantee the tested voltage to a linear operating region of the function block which is coupled to the MPP1 by a multiplexing design.
    • 一种用于驱动电气设备的处理器的内部功能块以在线性区域中操作的电子设备和方法。 电子设备包括具有两个多用途引脚(MPP1和MPP2),外部设备连接端口和两个电阻元件的处理器。 外部设备连接端口进一步连接到MPP1并处于测试电压。 第一电阻元件连接在高电平电压和外部设备连接端口之间。 第二个电阻元件连接在外部设备连接端口和MPP2之间。 处理器被配置为当测试电压处于非线性工作区域时,在MPP2处输出高电平或低电平电压,以通过多路复用来保证被测电压到功能块的线性工作区,该功能块与MPP1耦合 设计。
    • 3. 发明授权
    • Portable electronic devices capable of obtaining charging current value of charger and charging method thereof
    • 能够获得充电器的充电电流值的便携式电子设备及其充电方法
    • US09312576B2
    • 2016-04-12
    • US13397203
    • 2012-02-15
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • H02J7/00H01M10/44
    • H01M10/44H02J7/007H02J2007/0062
    • A portable electronic device is provided. Connector includes the first and data pins. Processor includes input and output pins and detection pin coupled to the input pin. First resistor is coupled between the detection pin and first voltage. When the processor detects that the first and second pins of charger are coupled to the first and second data pins of the connector, the processor provides switching signal to the selector, so as to couple the first and second data pins of the connector to the input and output pins of the processor, respectively, and to provide second voltage different from the first voltage, to the second pin of the charger via the output pin. The processor obtains charging current value of the charger according to voltage of the detection pin. The charger includes second resistor coupled between the first and second pins.
    • 提供便携式电子设备。 连接器包括第一个和数据引脚。 处理器包括输入和输出引脚以及耦合到输入引脚的检测引脚。 第一个电阻耦合在检测引脚和第一个电压之间。 当处理器检测到充电器的第一和第二引脚耦合到连接器的第一和第二数据引脚时,处理器向切换器提供切换信号,以将连接器的第一和第二数据引脚耦合到输入端 和处理器的输出引脚,并且通过输出引脚将不同于第一电压的第二电压提供给充电器的第二引脚。 处理器根据检测针的电压来获得充电器的充电电流值。 充电器包括耦合在第一和第二引脚之间的第二电阻器。
    • 4. 发明授权
    • Portable device and peripheral extension dock
    • 便携式设备和外围设备扩展坞
    • US08954628B2
    • 2015-02-10
    • US13489027
    • 2012-06-05
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • G06F3/00G06F13/12
    • G06F1/1632G06F13/4022G06F13/4081Y02D10/14Y02D10/151
    • An electronic device includes a housing, a connector port and a switching device. The connector port receives a peripheral device. The processor is electrically connected to the connector port and includes a detection pin and a 1-wire pin. The switching device is coupled between the connector port and the processor to selectively connect the connector port to one of the detection pin or the 1-wire pin. When the peripheral device is inserted into the connector port, the processor controls the switching device to connect the connector port to the detection pin to determine whether the connected peripheral device is a 1-wire device. When the processor determines that the connected peripheral device is a 1-wire device, the processor controls the switching device to connect the connector port to the 1-wire pin and the processor executes 1-wire communication with the peripheral device via the 1-wire pin.
    • 电子设备包括壳体,连接器端口和开关装置。 连接器端口接收外围设备。 处理器电连接到连接器端口,并包括检测引脚和1线引脚。 开关装置耦合在连接器端口和处理器之间,以将连接器端口选择性地连接到检测销或1线引脚之一。 当外围设备插入连接器端口时,处理器控制切换设备将连接器端口连接到检测引脚,以确定连接的外围设备是否为1线设备。 当处理器确定连接的外围设备是1线设备时,处理器控制开关设备将连接器端口连接到1线引脚,处理器通过1线制与外围设备执行1线通信 销。
    • 5. 发明申请
    • PORTABLE DEVICE AND PERIPHERAL EXTENSION DOCK
    • 便携式设备和外围延伸锁
    • US20130322010A1
    • 2013-12-05
    • US13489027
    • 2012-06-05
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • Ching-Chung HungYu-Peng LaiWei-Chih Chang
    • G06F1/16
    • G06F1/1632G06F13/4022G06F13/4081Y02D10/14Y02D10/151
    • An electronic device includes a housing, a connector port and a switching device. The connector port receives a peripheral device. The processor is electrically connected to the connector port and includes a detection pin and a 1-wire pin. The switching device is coupled between the connector port and the processor to selectively connect the connector port to one of the detection pin or the 1-wire pin. When the peripheral device is inserted into the connector port, the processor controls the switching device to connect the connector port to the detection pin to determine whether the connected peripheral device is a 1-wire device. When the processor determines that the connected peripheral device is a 1-wire device, the processor controls the switching device to connect the connector port to the 1-wire pin and the processor executes 1-wire communication with the peripheral device via the 1-wire pin.
    • 电子装置包括壳体,连接器端口和开关装置。 连接器端口接收外围设备。 处理器电连接到连接器端口,并包括检测引脚和1线引脚。 开关装置耦合在连接器端口和处理器之间,以将连接器端口选择性地连接到检测销或1线引脚之一。 当外围设备插入连接器端口时,处理器控制切换设备将连接器端口连接到检测引脚,以确定连接的外围设备是否为1线设备。 当处理器确定连接的外围设备是1线设备时,处理器控制开关设备将连接器端口连接到1线引脚,处理器通过1线制与外围设备执行1线通信 销。
    • 7. 发明授权
    • Portable electronic apparatus and connection method therefor
    • 便携式电子设备及其连接方法
    • US08497603B2
    • 2013-07-30
    • US12623475
    • 2009-11-23
    • Chia-Wei HsuYu-Peng LaiChia-Hsing LiaoChing-Chung HungWei-Syuan Lin
    • Chia-Wei HsuYu-Peng LaiChia-Hsing LiaoChing-Chung HungWei-Syuan Lin
    • H01H35/00H01H83/00
    • H01R24/58H01R2105/00Y10T307/766
    • A portable electronic apparatus and a connection method therefore are disclosed. The portable electronic apparatus comprises a connector, a processing circuit, and a switch module. After a plug is plugged into the connector, the processing circuit reads a voltage value of the plug via the switch module. When determining that the voltage value of the plug is within a first voltage range, the processing circuit outputs switch signals to the switch module, so that an input signal of the plug is able to be transmitted to the processing circuit via the connector and the switch module. When determining that the voltage value of the plug is within a second voltage range, the processing circuit outputs other switch signals to the switch module, so that an output signal of the processing circuit is able to be transmitted to the plug via the switch module and the connector.
    • 因此,公开了一种便携式电子设备和连接方法。 便携式电子设备包括连接器,处理电路和开关模块。 插头插入连接器后,处理电路通过开关模块读取插头的电压值。 当确定插头的电压值在第一电压范围内时,处理电路将开关信号输出到开关模块,使得插头的输入信号能够经由连接器和开关发送到处理电路 模块。 当确定插头的电压值在第二电压范围内时,处理电路向开关模块输出其他开关信号,使得处理电路的输出信号能够通过开关模块传送到插头, 连接器。
    • 9. 发明申请
    • DEFOGGING AND DEFROSTING DEVICE FOR PROTECTIVE LENS OF A CAMERA
    • 用于摄像机保护镜头的防腐和防破坏装置
    • US20120170119A1
    • 2012-07-05
    • US13174097
    • 2011-06-30
    • Yi-Chih CHUChing-Chung Hung
    • Yi-Chih CHUChing-Chung Hung
    • G03B17/00
    • G03B17/55G02B27/0006G03B11/00
    • The present invention relates to a defogging and defrosting devices for the protective lens of camera, which includes a heater that is coupled to a control circuit panel, a thermal gasket that is in contact contacting with the heater, receives the heat from the heater and transmits the heat to the glass or mirror object which contacts with in order to avoid and prevent the loss of lucidity of the glass or mirror object due to humidity. The defogging and defrosting device is installed on the body of the camera instead of on the protective lens in order to avoid shading the camera view and to facilitate the removal of protective lens while adjusting the focus of the camera. It also facilitates the replacement of the protective lens of the camera.
    • 本发明涉及一种用于相机保护镜头的除雾除霜装置,其包括耦合到控制电路板的加热器,与加热器接触接触的热垫片,从加热器接收热量并传输 与玻璃或镜子物体接触的热量,以避免和防止由于湿度导致的玻璃或镜面物体的透明度的损失。 除雾和除霜装置安装在相机的主体而不是保护镜头上,以避免遮挡相机视图,并在调整相机焦距的同时方便拆卸保护镜头。 它还有助于更换相机的保护镜头。
    • 10. 发明申请
    • Card reader with multiple slots
    • 具有多个插槽的读卡器
    • US20080099558A1
    • 2008-05-01
    • US11590905
    • 2006-11-01
    • Ching-Chung HungYu-Chi Peng
    • Ching-Chung HungYu-Chi Peng
    • G06K7/01
    • G06K7/0021G06K7/0043G06K7/0073G06K19/07741
    • A card reader with multiple slots to convert data stored in electronic cards in different format into the interface format of Express Card™ and to output the converted data to a computer includes an insulation casing, two slots, one Express Card™ connector, and data relay unit to convert the data storage format of an electronic card into the interface format of Express Card™ and to output the converted data through the Express Card™ connector; each slot being divided into multiple terminal sets to respectively connect to multiple electronic cards for reducing the space of the card reader, facilitating portability, and better adapting to expansion medium used by mobile commerce or traveler.
    • 具有多个插槽的读卡器将以不同格式存储在电子卡中的数据转换成Express Card TM的接口格式并将转换的数据输出到计算机包括绝缘外壳,两个插槽,一个Express Card TM连接器 和数据中继单元,用于将电子卡的数据存储格式转换成Express Card TM的接口格式,并通过Express Card TM连接器输出转换后的数据; 每个插槽被分成多个终端机组,以分别连接到多个电子卡,以减少读卡器的空间,促进便携性,以及更好地适应移动商务或旅行者使用的扩展介质。