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    • 1. 发明申请
    • CAPACITIVE TOUCH APPARATUS
    • 电容触摸装置
    • US20120139867A1
    • 2012-06-07
    • US13293467
    • 2011-11-10
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • Sean CHANGChii-How CHANGChin-Wei KUO
    • G06F3/044
    • G06F3/044G06F3/0416
    • A capacitive touch apparatus includes a first touch unit, a first voltage difference retrieving unit, a first feedback signal generating unit, and a control unit. The first touch unit has a touch substrate and a first conductive layer. The first voltage difference retrieving unit is electrically connected with the first conductive layer and outputs a first voltage signal and a second voltage signal. The first feedback signal generating unit outputs a first feedback signal according to the variation of the voltage difference between the first voltage signal and the second voltage signal. The control unit receives the first feedback signal for computing the touch position and outputs a power signal to the first voltage difference retrieving unit. Hence, the capacitive touch apparatus improves the sensing speed and reduces the manufacturing cost by the simple circuit design.
    • 电容式触摸装置包括第一触摸单元,第一电压差检索单元,第一反馈信号生成单元和控制单元。 第一触摸单元具有触摸基板和第一导电层。 第一电压差检索单元与第一导电层电连接并输出第一电压信号和第二电压信号。 第一反馈信号发生单元根据第一电压信号和第二电压信号之间的电压差的变化输出第一反馈信号。 控制单元接收用于计算触摸位置的第一反馈信号,并将功率信号输出到第一电压差检索单元。 因此,电容式触摸装置通过简单的电路设计提高了感测速度并降低了制造成本。
    • 4. 发明申请
    • Magnetic actuator system and control method thereof
    • 磁致动器系统及其控制方法
    • US20070091508A1
    • 2007-04-26
    • US11505340
    • 2006-08-17
    • Sean ChangChii-How Chang
    • Sean ChangChii-How Chang
    • G11B5/54
    • G11B5/54
    • A control method of the magnetic actuator system includes the following steps. A first initial orientation step is to move a magnetic actuator to a first position in accordance with a first position signal, and generate a first position sense signal by a position sensor. A second initial orientation step is to move the magnetic actuator to a second position in accordance with a second position signal, and generate a second position sense signal by the position sensor. An orientation step is to perform an interpolation in accordance with the above signals and a target position signal to obtain a target position sense signal. A moving step is to move the magnetic actuator to an actual position in accordance with the target position signal, and output an actual position sense signal by the position sensor. An adjustment step is to move the magnetic actuator to a target position in accordance with the target position sense signal and the actual position sense signal.
    • 磁致动器系统的控制方法包括以下步骤。 第一初始定向步骤是根据第一位置信号将磁致动器移动到第一位置,并且通过位置传感器产生第一位置感测信号。 第二初始定向步骤是根据第二位置信号将磁致动器移动到第二位置,并且由位置传感器产生第二位置检测信号。 取向步骤是根据上述信号和目标位置信号执行插值以获得目标位置检测信号。 移动步骤是根据目标位置信号将磁致动器移动到实际位置,并通过位置传感器输出实际的位置检测信号。 调整步骤是根据目标位置检测信号和实际的位置检测信号将磁致动器移动到目标位置。
    • 5. 发明申请
    • Magnetic actuators
    • 磁力执行器
    • US20060028071A1
    • 2006-02-09
    • US11194548
    • 2005-08-02
    • Chii-How ChangSean Chang
    • Chii-How ChangSean Chang
    • H02K41/00
    • H02K33/18G02B5/005G03B9/06H02K33/02
    • A magnetic actuator. A yoke includes a first opening and a second opening, a frame, and a path. A first magnet is disposed in the first opening in the vicinity of the frame. A second magnet is disposed in the second opening in the vicinity of the frame. A coil comprises a wire surrounding the path. A light shield is connected to an end of the coil. A guiding element disposed outside the path is connected to an end of the coil. When current passes through the coil, the coil moves along the path by magnetic induction between the first magnet and the second magnet such that the iris diaphragm is adjustable by the light shield. When there is no current through the coil, dynamic force produced by the guiding element returns the light shield to its original position.
    • 磁力驱动器。 轭包括第一开口和第二开口,框架和路径。 第一磁体设置在框架附近的第一开口中。 第二磁体设置在框架附近的第二开口中。 线圈包括围绕路径的线。 灯罩连接到线圈的一端。 设置在路径外侧的引导元件连接到线圈的端部。 当电流通过线圈时,线圈通过磁感应在第一磁体和第二磁体之间沿着路径移动,使得光圈可以通过光屏来调节。 当不存在通过线圈的电流时,由导向元件产生的动力将光罩返回其初始位置。
    • 6. 发明授权
    • Wavelength stabilizing apparatus and control method
    • 波长稳定装置及控制方法
    • US06973228B2
    • 2005-12-06
    • US10712368
    • 2003-11-12
    • Chii-How ChangSean Chang
    • Chii-How ChangSean Chang
    • G01J9/02G02B6/00G02F2/00H01S3/13H01S5/0683H01S5/0687H04B10/50H04B10/572H04J14/02
    • H04B10/504G01J9/0246G01J2009/0257H01S3/1305H01S5/0683H01S5/0687H04B10/572
    • A wavelength stabilizing apparatus utilized in an optical communication system for controlling a light wave output from a tunable optical component is disclosed. The wavelength stabilizing apparatus includes a coarse-tuning element, a fine-tuning element, and a servo element. When the wavelength stabilizing apparatus is used, the light wave output from the tunable optical component is directed into the coarse-tuning element and the fine-tuning element, respectively, and then transformed into electric signals to be received by the servo element. Particularly, the electric signals from the coarse-tuning element are served as basis for coarse-tuning and channel recognition of the light wave output from the tunable optical component while the electric signals from the fine-tuning element are served for fine-tuning and servo control of the light wave output from the tunable optical component. These electric signals are also processed with a logical operation to obtain a control signal for controlling the tunable optical component.
    • 公开了用于控制从可调谐光学部件输出的光波的光通信系统中的波长稳定装置。 波长稳定装置包括粗调元件,微调元件和伺服元件。 当使用波长稳定装置时,从可调谐光学部件输出的光波分别被引导到微调元件和微调元件中,然后变换成电信号以被伺服元件接收。 特别地,来自微调元件的电信号被用作从可调谐光学部件输出的光波的粗调和信道识别的基础,同时来自微调元件的电信号用于微调和伺服 控制从可调谐光学部件输出的光波。 这些电信号也用逻辑运算进行处理,以获得用于控制可调谐光学部件的控制信号。
    • 8. 发明授权
    • Iris diaphragm actuator, magnetic position sensing structure and arrangement method thereof
    • 虹膜隔膜致动器,磁位置检测结构及其布置方法
    • US07665914B2
    • 2010-02-23
    • US11491895
    • 2006-07-25
    • Chii-How Chang
    • Chii-How Chang
    • G02F1/00G03B9/00G02B9/08H02K29/08
    • G03B9/06
    • An iris diaphragm actuator includes a magnetic position sensing structure, at least one driving element and a light intercepting element. The magnetic position sensing structure includes a magnetic element and a magnetic sensor relatively disposed. The driving element connects and drives the magnetic element or the magnetic sensor to perform a rotating motion with respect to a rotation center such that the distance and angle between the magnetic element and the magnetic sensor are changed so as to obtain a substantially linear relation between a magnetic flux sensed by the magnetic sensor and the position of the magnetic element. Also, an arrangement method of a magnetic position sensing structure is disclosed.
    • 光圈隔膜致动器包括磁性位置检测结构,至少一个驱动元件和遮光元件。 磁性位置检测结构包括相对设置的磁性元件和磁性传感器。 驱动元件连接并驱动磁性元件或磁性传感器,以相对于旋转中心进行旋转运动,使得磁性元件和磁性传感器之间的距离和角度发生变化,从而获得a 由磁传感器感测的磁通量和磁性元件的位置。 此外,公开了一种磁性位置检测结构的布置方法。
    • 9. 发明授权
    • Magnetic actuator
    • 磁力执行机构
    • US07594239B2
    • 2009-09-22
    • US11153549
    • 2005-06-16
    • Chii-How ChangSean Chang
    • Chii-How ChangSean Chang
    • G11B17/03
    • H01F7/066H01F7/122
    • A magnetic actuator. The magnetic actuator comprises a first magnet, a second magnet, a first yoke, and a first coil. The second magnet is arranged axially with respect to the first magnet with repulsion therebetween. The first yoke is disposed between the first magnet and the second magnet, and the magnetic field lines produced by the first magnet and the second magnet extend from the first yoke. The first coil surrounds and corresponds to the first yoke. When a current is occurred in the first coil, the magnetic force generated between the first magnet and the second magnet will actuates the first coil to move axially with respect to the first and second magnets.
    • 磁力驱动器。 磁致动器包括第一磁体,第二磁体,第一磁轭和第一线圈。 第二磁体相对于第一磁体轴向布置,在它们之间具有排斥力。 第一磁轭设置在第一磁体和第二磁体之间,由第一磁体和第二磁体产生的磁场线从第一磁轭延伸。 第一线圈围绕并对应于第一轭。 当在第一线圈中发生电流时,在第一磁体和第二磁体之间产生的磁力将致动第一线圈相对于第一和第二磁体轴向移动。