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    • 1. 发明申请
    • High-Voltage Mosfets Having Current Diversion Region in Substrate Near Fieldplate
    • 高压滤波器在底板附近有电流导流区域
    • US20130093010A1
    • 2013-04-18
    • US13271342
    • 2011-10-12
    • Yun-Pei HuangYi-Feng ChangJam-Wem Lee
    • Yun-Pei HuangYi-Feng ChangJam-Wem Lee
    • H01L29/78
    • H01L29/0653H01L29/063H01L29/0696H01L29/1095H01L29/402H01L29/42368H01L29/7816
    • To limit or prevent current crowding, various HV-MOSFET embodiments include a current diversion region disposed near a drain region of an HV-MOSFET and near an upper surface of the semiconductor substrate. In some embodiments, the current diversion region is disposed near a field plate of the HV-MOSFET, wherein the field plate can also help to reduce or “smooth” electric fields near the drain to help limit current crowding. In some embodiments, the current diversion region is a p-doped, n-doped, or intrinsic region that is at a floating voltage potential. This current diversion region can push current deeper into the substrate of the HV-MOSFET (relative to conventional HV-MOSFETs), thereby reducing current crowding during ESD events. By reducing current crowding, the current diversion region makes the HV-MOSFETs disclosed herein more impervious to ESD events and, therefore, more reliable in real-world applications.
    • 为了限制或防止电流拥挤,各种HV-MOSFET实施例包括设置在HV-MOSFET的漏极区附近并且在半导体衬底的上表面附近的电流分流区域。 在一些实施例中,电流引流区域设置在HV-MOSFET的场板附近,其中场板还可以帮助减少或“平滑”漏极附近的电场,以帮助限制电流拥挤。 在一些实施例中,电流分流区域是处于浮置电压电位的p掺杂,n掺杂或本征区域。 该电流分流区可以将电流深度推入HV-MOSFET的衬底(相对于传统HV-MOSFET),从而减少ESD事件期间的电流拥挤。 通过减少电流拥挤,电流分流区域使得本文公开的HV-MOSFET更加不可避免地存在ESD事件,因此在现实世界的应用中更可靠。
    • 2. 发明授权
    • High-voltage MOSFETs having current diversion region in substrate near fieldplate
    • 在场板附近的基板中具有电流分流区的高压MOSFET
    • US08541848B2
    • 2013-09-24
    • US13271342
    • 2011-10-12
    • Yun-Pei HuangYi-Feng ChangJam-Wem Lee
    • Yun-Pei HuangYi-Feng ChangJam-Wem Lee
    • H01L29/78
    • H01L29/0653H01L29/063H01L29/0696H01L29/1095H01L29/402H01L29/42368H01L29/7816
    • To limit or prevent current crowding, various HV-MOSFET embodiments include a current diversion region disposed near a drain region of an HV-MOSFET and near an upper surface of the semiconductor substrate. In some embodiments, the current diversion region is disposed near a field plate of the HV-MOSFET, wherein the field plate can also help to reduce or “smooth” electric fields near the drain to help limit current crowding. In some embodiments, the current diversion region is a p-doped, n-doped, or intrinsic region that is at a floating voltage potential. This current diversion region can push current deeper into the substrate of the HV-MOSFET (relative to conventional HV-MOSFETs), thereby reducing current crowding during ESD events. By reducing current crowding, the current diversion region makes the HV-MOSFETs disclosed herein more impervious to ESD events and, therefore, more reliable in real-world applications.
    • 为了限制或防止电流拥挤,各种HV-MOSFET实施例包括设置在HV-MOSFET的漏极区附近并且在半导体衬底的上表面附近的电流分流区域。 在一些实施例中,电流引流区域设置在HV-MOSFET的场板附近,其中场板还可以帮助减少或“平滑”漏极附近的电场,以帮助限制电流拥挤。 在一些实施例中,电流分流区域是处于浮置电压电位的p掺杂,n掺杂或本征区域。 该电流分流区可以将电流深度推入HV-MOSFET的衬底(相对于传统HV-MOSFET),从而减少ESD事件期间的电流拥挤。 通过减少电流拥挤,电流分流区域使得本文公开的HV-MOSFET更加不可避免地存在ESD事件,因此在现实世界的应用中更可靠。
    • 3. 发明授权
    • Backlight module of liquid crystal display device
    • 液晶显示装置背光模组
    • US08653735B2
    • 2014-02-18
    • US13166061
    • 2011-06-22
    • Shih-Wen WeiTsung-Shiun LeeYun-Pei HuangChun-Liang Kuo
    • Shih-Wen WeiTsung-Shiun LeeYun-Pei HuangChun-Liang Kuo
    • H05B41/36
    • H05B41/2855
    • The disclosure provides a backlight module applied to a liquid crystal display device. The backlight module includes: a control circuit for outputting a driving signal according to an analog adjustment signal or a digital adjustment signal; a driving circuit for outputting a lamp voltage according to the driving signal; a fluorescent lamp set, including a plurality of lamps, for receiving the lamp voltage and thereby generating a lamp current; a lamp feedback circuit c for outputting a feedback signal according to the lamp voltage; and a dynamic protection circuit, for dynamically adjusting a protection command signal according to the analog dimming signal or the digital dimming signal, comparing the protection command signal and the feedback signal and thereby outputting a comparing result signal to the control circuit.
    • 本公开提供了一种应用于液晶显示装置的背光模块。 背光模块包括:控制电路,用于根据模拟调整信号或数字调节信号输出驱动信号; 驱动电路,用于根据驱动信号输出灯电压; 包括多个灯的荧光灯组,用于接收灯电压,从而产生灯电流; 灯反馈电路c,用于根据灯电压输出反馈信号; 以及动态保护电路,用于根据模拟调光信号或数字调光信号动态调整保护命令信号,比较保护命令信号和反馈信号,从而将比较结果信号输出到控制电路。
    • 4. 发明申请
    • BACKLIGHT MODULE OF LIQUID CRYSTAL DISPLAY DEVICE
    • 液晶显示装置的背光模组
    • US20120025712A1
    • 2012-02-02
    • US13166061
    • 2011-06-22
    • Shih-Wen WeiTsung-Shiun LeeYun-Pei HuangChun-Liang Kuo
    • Shih-Wen WeiTsung-Shiun LeeYun-Pei HuangChun-Liang Kuo
    • H05B41/36
    • H05B41/2855
    • The disclosure provides a backlight module applied to a liquid crystal display device. The backlight module includes: a control circuit for outputting a driving signal according to an analog adjustment signal or a digital adjustment signal; a driving circuit for outputting a lamp voltage according to the driving signal; a fluorescent lamp set, including a plurality of lamps, for receiving the lamp voltage and thereby generating a lamp current; a lamp feedback circuit c for outputting a feedback signal according to the lamp voltage; and a dynamic protection circuit, for dynamically adjusting a protection command signal according to the analog dimming signal or the digital dimming signal, comparing the protection command signal and the feedback signal and thereby outputting a comparing result signal to the control circuit.
    • 本公开提供了一种应用于液晶显示装置的背光模块。 背光模块包括:控制电路,用于根据模拟调整信号或数字调节信号输出驱动信号; 驱动电路,用于根据驱动信号输出灯电压; 包括多个灯的荧光灯组,用于接收灯电压,从而产生灯电流; 灯反馈电路c,用于根据灯电压输出反馈信号; 以及动态保护电路,用于根据模拟调光信号或数字调光信号动态调整保护命令信号,比较保护命令信号和反馈信号,从而将比较结果信号输出到控制电路。