公开(公告)号：US08085001B2

公开(公告)日：2011-12-27

申请号：US12411354

申请日：2009-03-25

申请人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You ,  Kuan-Hong Hsieh

发明人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You ,  Kuan-Hong Hsieh

IPC分类号： H02J7/06 ,  H02J7/24 ,  H02J7/04 ,  H02J7/16

CPC分类号： H02J7/0072 ,  H02J7/0031

摘要： The present invention provides a charging control circuit for a rechargeable battery. The charging control circuit includes: a constant-current charging unit and a trickle charging unit. The charging control circuit further includes a branch switch, a detection switch, a control unit, and a detection unit. The branch switch is connected between a power source and the rechargeable battery for enabling or disabling the constant-current charging unit, the detection switch is turned on or off depending on the enable or disable state of the constant-current charging unit. The control unit is connected between the detection switch and the branch switch for controlling the branch switch to turn on or off depending on the off or on state of the detection switch.

摘要翻译： 本发明提供一种用于可再充电电池的充电控制电路。 充电控制电路包括：恒流充电单元和涓​​流充电单元。 充电控制电路还包括分支开关，检测开关，控制单元和检测单元。 分支开关连接在电源和可充电电池之间，用于启用或禁用恒流充电单元，根据恒流充电单元的使能或禁用状态，检测开关导通或关断。 控制单元连接在检测开关和分支开关之间，用于控制分支开关根据检测开关的断开或接通状态导通或关断。

公开(公告)号：US08089251B2

公开(公告)日：2012-01-03

申请号：US12408727

申请日：2009-03-23

申请人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You

发明人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You

IPC分类号： H02J7/06 ,  H02J7/24 ,  H02J7/04 ,  H02J7/16

CPC分类号： H02J7/0031 ,  H02J7/0072

摘要： The present disclosure provides a battery charging control circuit. The charging control circuit includes: a constant-current charging unit and a trickle charging unit. The charging control circuit further includes a branch switch, a control unit, and a detection unit. The branch switch is connected between a power source and the rechargeable battery for enabling or disabling the constant-current charging unit. The control unit is between the constant-current charging unit and the branch switch for controlling the branch switch. The detection unit is used to detect a state of the rechargeable battery. If the detection unit detects the state of the rechargeable battery is correspond to a predetermined state, then the control unit controls the branch switch to disable the constant-current charging unit and enable the trickle charging unit.

摘要翻译： 本公开提供一种电池充电控制电路。 充电控制电路包括：恒流充电单元和涓​​流充电单元。 充电控制电路还包括分支开关，控制单元和检测单元。 分支开关连接在电源和可充电电池之间，用于启用或禁用恒流充电单元。 控制单元位于恒流充电单元和用于控制分支开关的分支开关之间。 检测单元用于检测可再充电电池的状态。 如果检测单元检测到可再充电电池的状态对应于预定状态，则控制单元控制分支开关以禁用恒流充电单元并启用涓流充电单元。

公开(公告)号：US20090256529A1

公开(公告)日：2009-10-15

申请号：US12408727

申请日：2009-03-23

申请人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You

发明人： Han-Che Wang ,  Shin-Hong Chung ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Ruey-Shyang You

IPC分类号： H02J7/06 ,  H02J7/04

CPC分类号： H02J7/0031 ,  H02J7/0072

摘要： The present disclosure provides a battery charging control circuit. The charging control circuit includes: a constant-current charging unit and a trickle charging unit. The charging control circuit further includes a branch switch, a control unit, and a detection unit. The branch switch is connected between a power source and the rechargeable battery for enabling or disabling the constant-current charging unit. The control unit is between the constant-current charging unit and the branch switch for controlling the branch switch. The detection unit is used to detect a state of the rechargeable battery. If the detection unit detects the state of the rechargeable battery is correspond to a predetermined state, then the control unit controls the branch switch to disable the constant-current charging unit and enable the trickle charging unit.

摘要翻译： 本公开提供一种电池充电控制电路。 充电控制电路包括：恒流充电单元和涓​​流充电单元。 充电控制电路还包括分支开关，控制单元和检测单元。 分支开关连接在电源和可充电电池之间，用于启用或禁用恒流充电单元。 控制单元位于恒流充电单元和用于控制分支开关的分支开关之间。 检测单元用于检测可再充电电池的状态。 如果检测单元检测到可再充电电池的状态对应于预定状态，则控制单元控制分支开关以禁用恒流充电单元并启用涓流充电单元。

公开(公告)号：US20100171710A1

公开(公告)日：2010-07-08

申请号：US12545876

申请日：2009-08-24

申请人： Xin Zhao ,  Zu-Pei He ,  Ruey-Shyang You ,  Hua-Dong Cheng ,  Han-Che Wang ,  Kuan-Hong Hsieh

发明人： Xin Zhao ,  Zu-Pei He ,  Ruey-Shyang You ,  Hua-Dong Cheng ,  Han-Che Wang ,  Kuan-Hong Hsieh

IPC分类号： G06F3/041

CPC分类号： G06F3/0421

摘要： An electronic device with infrared touch input function is provided. The electronic device includes a display unit defining an signal display area; an infrared input device including a circuit board having two pairs of oppositely disposed sides defining an open area corresponding in size and shape to the signal display area, at least one light emitting device positioned on the circuit board, configured for emitting infrared light; at least one light detecting device positioned on the circuit board, configured for detecting infrared light emitted; a micro-processing unit configured for controlling the at least one light emitting device to emit infrared light, detecting infrared light paths obstructed via the light detecting devices, sending information of the obstructed infrared light paths to a central processing unit(CPU); and the CPU configured for performing functions according to the information of the obstructed infrared light paths.

摘要翻译： 提供具有红外触摸输入功能的电子设备。 电子设备包括限定信号显示区域的显示单元; 红外输入装置，包括具有两对相对设置的侧面的电路板，所述两对相对设置的侧面限定了与信号显示区域相对应的大小和形状的开放区域;定位在电路板上的至少一个发光器件，被配置为发射红外光; 位于所述电路板上的至少一个光检测装置，被配置为检测发射的红外光; 微处理单元，被配置为用于控制所述至少一个发光装置发射红外光，检测经由所述光检测装置阻挡的红外光路，将阻挡的红外光路的信息发送到中央处理单元（CPU）; 以及被配置为根据阻挡的红外光路的信息执行功能的CPU。

公开(公告)号：US08552680B2

公开(公告)日：2013-10-08

申请号：US12873232

申请日：2010-08-31

申请人： Xin Zhao ,  Hua-Dong Cheng ,  Ruey-Shyang You ,  Han-Che Wang ,  Xiao-Guang Li ,  Kuan-Hong Hsieh

发明人： Xin Zhao ,  Hua-Dong Cheng ,  Ruey-Shyang You ,  Han-Che Wang ,  Xiao-Guang Li ,  Kuan-Hong Hsieh

IPC分类号： H02J7/00

CPC分类号： H01M10/46 ,  Y02B10/72

摘要： An electronic device includes a first rechargeable battery, a solar cell mounted on the electronic device, a second rechargeable battery and a power management circuit. The power management circuit includes a control module, a DC/DC module, a switch and a power supply switching module. The DC/DC module is configured for converting the DC power generated by the solar cell from one voltage level to another, and activating and maintaining the activation of the control module. The switch is turned on by the control module when the control module is activated, causing the DC power from the DC/DC module to charge the second rechargeable battery. The power supply switching module is controlled by the control module to select the second rechargeable battery to power the electronic device if the voltage level of the rechargeable battery is lower than that of the second rechargeable battery.

摘要翻译： 电子设备包括第一可充电电池，安装在电子设备上的太阳能电池，第二可充电电池和电源管理电路。 电源管理电路包括控制模块，DC / DC模块，开关和电源开关模块。 DC / DC模块被配置为将由太阳能电池产生的直流电力从一个电压电平转换到另一个电压电平，并且激活和维持控制模块的激活。 当控制模块被激活时，开关由控制模块接通，导致来自DC / DC模块的DC电源对第二个可充电电池充电。 如果可再充电电池的电压低于第二可充电电池的电压，则电源开关模块由控制模块控制以选择第二可充电电池来为电子设备供电。

公开(公告)号：US08482548B2

公开(公告)日：2013-07-09

申请号：US12871833

申请日：2010-08-30

申请人： Xin Zhao ,  Zu-Pei He ,  Han-Che Wang ,  Xiao-Guang Li ,  Ruey-Shyang You ,  Kuan-Hong Hsieh

发明人： Xin Zhao ,  Zu-Pei He ,  Han-Che Wang ,  Xiao-Guang Li ,  Ruey-Shyang You ,  Kuan-Hong Hsieh

IPC分类号： G06F3/042 ,  G06F3/041

CPC分类号： G06F3/0428 ,  G06F1/3218 ,  G06F3/0416

摘要： A configuration method includes the following steps: Controlling the display unit to display visual information, determining whether the visual information includes one or more touch icons, and determining if the display areas are displaying the touch icons, if yes, determining which infrared lines correspond to the display areas. Then determining which infrared emitters and which infrared receivers form the infrared lines, and turning on the determined infrared emitters and infrared receivers, finally, turning off the other infrared emitters and infrared receivers. The invention also provides an electronic device with an infrared touch panel.

摘要翻译： 配置方法包括以下步骤：控制显示单元显示视觉信息，确定视觉信息是否包括一个或多个触摸图标，以及确定显示区域是否正在显示触摸图标，如果是，确定哪个红线对应于 显示区域。 然后确定哪些红外线发射器和哪个红外线接收器形成红外线，并打开确定的红外发射器和红外接收器，最后关闭其他红外发射器和红外接收器。 本发明还提供一种具有红外线触摸面板的电子设备。

公开(公告)号：US08264475B2

公开(公告)日：2012-09-11

申请号：US12545876

申请日：2009-08-24

申请人： Xin Zhao ,  Zu-Pei He ,  Ruey-Shyang You ,  Hua-Dong Cheng ,  Han-Che Wang ,  Kuan-Hong Hsieh

发明人： Xin Zhao ,  Zu-Pei He ,  Ruey-Shyang You ,  Hua-Dong Cheng ,  Han-Che Wang ,  Kuan-Hong Hsieh

IPC分类号： G06F3/042

CPC分类号： G06F3/0421

摘要： An electronic device with infrared touch input function is provided. The electronic device includes a display unit defining an signal display area; an infrared input device including a circuit board having two pairs of oppositely disposed sides defining an open area corresponding in size and shape to the signal display area, at least one light emitting device positioned on the circuit board, configured for emitting infrared light; at least one light detecting device positioned on the circuit board, configured for detecting infrared light emitted; a micro-processing unit configured for controlling the at least one light emitting device to emit infrared light, detecting infrared light paths obstructed via the light detecting devices, sending information of the obstructed infrared light paths to a central processing unit(CPU); and the CPU configured for performing functions according to the information of the obstructed infrared light paths.

摘要翻译： 提供具有红外触摸输入功能的电子设备。 电子设备包括限定信号显示区域的显示单元; 红外输入装置，包括具有两对相对设置的侧面的电路板，所述两对相对设置的侧面限定了与信号显示区域相对应的大小和形状的开放区域;定位在电路板上的至少一个发光器件，被配置为发射红外光; 位于所述电路板上的至少一个光检测装置，被配置为检测发射的红外光; 微处理单元，被配置为用于控制所述至少一个发光装置发射红外光，检测经由所述光检测装置阻挡的红外光路，将阻挡的红外光路的信息发送到中央处理单元（CPU）; 以及被配置为根据阻挡的红外光路的信息执行功能的CPU。

公开(公告)号：US07843084B2

公开(公告)日：2010-11-30

申请号：US12175440

申请日：2008-07-17

申请人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

发明人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

IPC分类号： H02J1/00 ,  H02J3/00

CPC分类号： H02J7/0063 ,  H02J1/108 ,  Y10T307/696

摘要： An exemplary electronic device capable of automatically selecting a power source includes two power ports configured to connect to external power sources and a battery compartment configured to receive a battery module. The voltage of the battery module is higher than at least one of the external power sources. The electronic device further includes a power selection module allocated between the battery module and the power port which selects the lower voltage. Three diodes are respectively located on the output path of the three power sources. A path switch that controls whether power to the device comes from the battery compartment or a power port is located between the anode of the battery compartment and the diode located on the output path of the battery module. Among the multiple power sources, the external power source providing a higher voltage is the first to be chosen to power the electronic device.

摘要翻译： 能够自动选择电源的示例性电子设备包括被配置为连接到外部电源的两个电源端口和被配置为接收电池模块的电池室。 电池模块的电压高于至少一个外部电源。 电子设备还包括分配在电池模块和选择较低电压的电源端口之间的电源选择模块。 三个二极管分别位于三个电源的输出路径上。 一个路径开关，用于控制设备的电源是从电池盒还是电源端口位于电池盒的阳极和位于电池模块的输出路径上的二极管之间。 在多个电源中，提供较高电压的外部电源首先被选择为电子设备供电。

公开(公告)号：US20090058369A1

公开(公告)日：2009-03-05

申请号：US12166270

申请日：2008-07-01

申请人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

发明人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

IPC分类号： H02J7/16

CPC分类号： H02J7/0077

摘要： The present invention provides a battery charging circuit to charge batteries in phases. In a first charging phase the charging circuit charges the batteries with a large current and at a second charging phase the charging circuit charges the batteries with a much smaller current. The charging circuit includes a current detection circuit which detects a charge current and provides a detection voltage proportional to the charge current. The battery charging circuit also includes an amplifier circuit to amplify the detection voltage and a comparison module compares the amplified detection voltage with a reference voltage. If the amplified detection voltage is lower than the reference voltage, the comparison module outputs a switch signal to a control module. The control module controls a charging module to charge the battery in a trickle mode when receiving the switch signal.

摘要翻译： 本发明提供一种用于对电池进行分相充电的电池充电电路。 在第一充电阶段，充电电路以大电流对电池充电，并且在第二充电阶段，充电电路以更小的电流对电池充电。 充电电路包括电流检测电路，其检测充电电流并提供与充电电流成比例的检测电压。 电池充电电路还包括用于放大检测电压的放大器电路，并且比较模块将放大的检测电压与参考电压进行比较。 如果放大的检测电压低于参考电压，则比较模块向控制模块输出开关信号。 控制模块控制充电模块，以在接收到开关信号时以涓流模式对电池充电。

公开(公告)号：US08513923B2

公开(公告)日：2013-08-20

申请号：US12166270

申请日：2008-07-01

申请人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

发明人： Han-Che Wang ,  Xin Zhao ,  Hong-Sheng Ouyang ,  Xiao-Guang Li ,  Shin-Hong Chung

IPC分类号： H02J7/06 ,  H02J7/00

CPC分类号： H02J7/0077

摘要： The present invention provides a battery charging control circuit to charge batteries in phases. In a first charging phase the charging circuit charges the batteries with a large current and at a second charging phase the charging circuit charges the batteries with a much smaller current. The charging circuit includes a current detection circuit which detects a charge current and provides a detection voltage proportional to the charge current. The battery charging control circuit also includes an amplifier circuit to amplify the detection voltage and a comparison module compares the amplified detection voltage with a reference voltage. If the amplified detection voltage is lower than the reference voltage, the comparison module outputs a switch signal to a control module. The control module controls a charging module to charge the battery in a trickle mode when receiving the switch signal.

摘要翻译： 本发明提供一种用于对电池进行相位充电的电池充电控制电路。 在第一充电阶段，充电电路以大电流对电池充电，并且在第二充电阶段，充电电路以更小的电流对电池充电。 充电电路包括电流检测电路，其检测充电电流并提供与充电电流成比例的检测电压。 电池充电控制电路还包括用于放大检测电压的放大器电路，并且比较模块将放大的检测电压与参考电压进行比较。 如果放大的检测电压低于参考电压，则比较模块向控制模块输出开关信号。 控制模块控制充电模块，以在接收到开关信号时以涓流模式对电池充电。