公开(公告)号：US20080036433A1

公开(公告)日：2008-02-14

申请号：US11550418

申请日：2006-10-18

Applicant: Yi-Pin Huang ,  Feng-Jung Kuo ,  Jen-Hao Hsueh ,  Wen-Ping Chou

Inventor： Yi-Pin Huang ,  Feng-Jung Kuo ,  Jen-Hao Hsueh ,  Wen-Ping Chou

IPC: G05F1/00

CPC classification number: G06F1/26 ,  G09G3/3648 ,  G09G2330/021 ,  H02M2001/0045

Abstract: This present invention relates to a voltage converting apparatus with auto-adjusting boost-multiple, which includes a microprocessor unit, a boost multiple control unit, a boost unit, and a voltage converting unit. According to the digital signal, the microprocessor unit generates an output voltage information and a converting multiple information. According to the output voltage information, the boost multiple control unit computes the corresponding relation between an output voltage and an input voltage in order to generate the boost multiple information. Based on the boost multiple information, the boost unit can amplify the output voltage to generate an converting operation voltage. The voltage converting unit operates between the converting operation voltage and a fist voltage, and converts a reference voltage into the output voltage according to the converting multiple information.

Abstract translation: 本发明涉及具有自动调整升压倍数的电压转换装置，其包括微处理器单元，升压多重控制单元，升压单元和电压转换单元。 根据数字信号，微处理器单元产生输出电压信息和转换多个信息。 根据输出电压信息，升压多重控制单元计算输出电压和输入电压之间的对应关系，以产生升压多重信息。 基于升压多重信息，升压单元可以放大输出电压以产生转换操作电压。 电压转换单元在转换操作电压和第一电压之间工作，并根据转换多个信息将参考电压转换为输出电压。

公开(公告)号：US07474082B2

公开(公告)日：2009-01-06

申请号：US11550418

申请日：2006-10-18

Applicant: Yi-Pin Huang ,  Feng-Jung Kuo ,  Jen-Hao Hsueh ,  Wen-Ping Chou

Inventor： Yi-Pin Huang ,  Feng-Jung Kuo ,  Jen-Hao Hsueh ,  Wen-Ping Chou

IPC: G05F1/563

CPC classification number: G06F1/26 ,  G09G3/3648 ,  G09G2330/021 ,  H02M2001/0045

Abstract: This present invention relates to a voltage converting apparatus with auto-adjusting boost-multiple, which includes a microprocessor unit, a boost multiple control unit, a boost unit, and a voltage converting unit. According to the digital signal, the microprocessor unit generates an output voltage information and a converting multiple information. According to the output voltage information, the boost multiple control unit computes the corresponding relation between an output voltage and an input voltage in order to generate the boost multiple information. Based on the boost multiple information, the boost unit can amplify the output voltage to generate an converting operation voltage. The voltage converting unit operates between the converting operation voltage and a fist voltage, and converts a reference voltage into the output voltage according to the converting multiple information.

Abstract translation: 本发明涉及具有自动调整升压倍数的电压转换装置，其包括微处理器单元，升压多重控制单元，升压单元和电压转换单元。 根据数字信号，微处理器单元产生输出电压信息和转换多个信息。 根据输出电压信息，升压多重控制单元计算输出电压和输入电压之间的对应关系，以产生升压多重信息。 基于升压多重信息，升压单元可以放大输出电压以产生转换操作电压。 电压转换单元在转换操作电压和第一电压之间工作，并根据转换多个信息将参考电压转换为输出电压。

公开(公告)号：US20070014858A1

公开(公告)日：2007-01-18

申请号：US11481749

申请日：2006-07-06

Applicant: Jen-Sen Wu ,  Yih-Yih Lin ,  Shou-Chiung Chen ,  Yi-Pin Huang ,  Hui-Ju Chan ,  Pei-Chun Kuo ,  Chun-Yu Lin

Inventor： Jen-Sen Wu ,  Yih-Yih Lin ,  Shou-Chiung Chen ,  Yi-Pin Huang ,  Hui-Ju Chan ,  Pei-Chun Kuo ,  Chun-Yu Lin

IPC: A61K9/46 ,  A61K9/24

CPC classification number: A61K9/0004 ,  A61K9/0007 ,  A61K9/2086

Abstract: An osmotically controlled delivery system includes a solid core having a shallow indentation on a surface of the core, and a semipermeable membrane enclosing the solid core. The solid core is made by a drug composition being caopable of generating an osmotically effective pressure, and the semipermeable membrane is relatively thinner at the shallow indentation. An in-situ exit passageway is formed in the indentation position when external aqueous fluids are imbibed through the semipermeable membrane into the dosage form by an osmotic pressure gradient. A process for forming an in-situ exit passageway of an osmotic delivery dosage form, a controlled onset dosage form, and a method for controlling the lag time of in-situ passageway formation are also disclosed.

Abstract translation: 渗透控制递送系统包括在芯的表面上具有浅凹陷的实心芯和包封实芯的半透膜。 固体核心由能够产生渗透有效压力的药物组合物制成，并且半透膜在浅凹陷处相对较薄。 当外部含水流体通过渗透压梯度吸入​​通过半透膜进入剂型时，在压痕位置形成原位离开通道。 还公开了一种用于形成渗透递送剂型的原位出口通道，受控起始剂型和控制原位通道形成的滞后时间的方法的方法。

公开(公告)号：US20130088438A1

公开(公告)日：2013-04-11

申请号：US13412671

申请日：2012-03-06

Applicant: Yu-Liang Shih ,  Jung-Wen Chang ,  Ya-Chun Hsu ,  Yi-Pin Huang

Inventor： Yu-Liang Shih ,  Jung-Wen Chang ,  Ya-Chun Hsu ,  Yi-Pin Huang

IPC: G06F3/041

CPC classification number: G06F3/0488 ,  G06F3/016 ,  G06F3/0483

Abstract: A method and an electronic device for tactile feedback are provided. The method includes: controlling a display panel to display an electronic book; controlling a haptic/tactile actuator to generate haptic/tactile feedback to express a texture of paper of the electronic book; detecting a drag input on a touch panel when the electronic book is displayed, the drag input including a plurality of touch points for page flipping of the electronic book; and controlling the haptic/tactile actuator to adjust the strength of the haptic/tactile feedback to express page flipping of the electronic book.

Abstract translation: 提供了一种用于触觉反馈的方法和电子设备。 该方法包括：控制显示面板显示电子书; 控制触觉/触觉致动器以产生触觉/触觉反馈以表达电子书的纸的纹理; 当显示电子书时，检测触摸面板上的拖动输入，所述拖动输入包括用于翻页电子书的多个触摸点; 并且控制触觉/触觉致动器来调节触觉/触觉反馈的强度以表达电子书的翻页。