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    • 1. 发明申请
    • SELF-CALIBRATING OPTICAL FEEDBACK SYSTEM IN A LASER MOUSE
    • 自动校准光源反馈系统在激光鼠标
    • US20090140984A1
    • 2009-06-04
    • US11947592
    • 2007-11-29
    • Kee Seng SooYat Kheng LeongSai Mun Lee
    • Kee Seng SooYat Kheng LeongSai Mun Lee
    • G06F3/033
    • G06F3/0317G06F3/03543
    • A self-calibrating optical feedback system for an optical navigation device. The self-calibrating optical feedback system includes a light source, an illumination lens, a beam splitter, and an optical feedback device. The illumination lens is coupled relative to the light source. The light source emits light based on a programming current. The illumination lens directs the light towards a beam splitter. The beam splitter partially reflects the light directed from the illumination lens. The optical feedback device detects the partially reflected light from the beam splitter and generates a feedback signal to modify an intensity of the light emitted by the light source. Embodiments of the self-calibrating optical feedback system maintain the output intensity of a laser driven optical navigation device below an eye-safety level.
    • 一种用于光学导航设备的自校准光学反馈系统。 自校准光学反馈系统包括光源,照明透镜,分束器和光反馈装置。 照明透镜相对于光源耦合。 光源基于编程电流发光。 照明透镜将光引导到分束器。 分束器部分地反射从照明透镜指向的光。 光学反馈装置检测来自分束器的部分反射的光,并产生反馈信号以修改由光源发射的光的强度。 自校准光学反馈系统的实施例将激光驱动光学导航装置的输出强度维持在眼睛安全水平以下。
    • 2. 发明授权
    • Self-calibrating optical feedback system in a laser mouse
    • 激光鼠标中的自校准光学反馈系统
    • US08022931B2
    • 2011-09-20
    • US11947592
    • 2007-11-29
    • Kee Seng SooYat Kheng LeongSai Mun Lee
    • Kee Seng SooYat Kheng LeongSai Mun Lee
    • G09G5/08
    • G06F3/0317G06F3/03543
    • A self-calibrating optical feedback system for an optical navigation device. The self-calibrating optical feedback system includes a light source, an illumination lens, a beam splitter, and an optical feedback device. The illumination lens is coupled relative to the light source. The light source emits light based on a programming current. The illumination lens directs the light towards a beam splitter. The beam splitter partially reflects the light directed from the illumination lens. The optical feedback device detects the partially reflected light from the beam splitter and generates a feedback signal to modify an intensity of the light emitted by the light source. Embodiments of the self-calibrating optical feedback system maintain the output intensity of a laser driven optical navigation device below an eye-safety level.
    • 一种用于光学导航设备的自校准光学反馈系统。 自校准光学反馈系统包括光源,照明透镜,分束器和光反馈装置。 照明透镜相对于光源耦合。 光源基于编程电流发光。 照明透镜将光引导到分束器。 分束器部分地反射从照明透镜指向的光。 光学反馈装置检测来自分束器的部分反射的光,并产生反馈信号以修改由光源发射的光的强度。 自校准光学反馈系统的实施例将激光驱动光学导航装置的输出强度维持在眼睛安全水平以下。
    • 5. 发明申请
    • USER INPUT DEVICE WITH PLANAR LIGHT GUIDE ILLUMINATION PLATE
    • 用户输入设备与平面光导向照明板
    • US20100079408A1
    • 2010-04-01
    • US12239192
    • 2008-09-26
    • Yat Kheng LeongSai Mun LeeHung Kwang LeeJin Kiong Ang
    • Yat Kheng LeongSai Mun LeeHung Kwang LeeJin Kiong Ang
    • G06F3/042
    • G06F3/042G06F3/03547G06F2203/04109
    • A user input device to generate an optical navigation signal based on an edge-lit pattern. The user input device includes an optical element, a light source, a sensor array, and a navigation engine. The optical element includes a finger interface surface. At least a portion of the optical element exhibits total internal reflection (TIR). The light source provides light to the finger interface surface. The sensor array detects light reflected from the finger interface surface in response to contact between a finger and the finger interface surface. The contact between the finger and the finger interface surface disrupts the TIR and causes light to be reflected out of the optical element towards the sensor array. The navigation engine generates lateral movement information, which is indicative of lateral movement of the finger relative to the sensor array, in response to the detected light.
    • 一种用户输入装置,用于基于边缘照明图案生成光学导航信号。 用户输入装置包括光学元件,光源,传感器阵列和导航引擎。 光学元件包括手指接口表面。 光学元件的至少一部分表现出全内反射(TIR)。 光源向手指界面提供光线。 传感器阵列响应于手指和手指接口表面之间的接触来检测从手指界面表面反射的光。 手指和手指接口表面之间的接触会破坏TIR,并使光从光学元件反射到传感器阵列。 导航引擎响应于检测到的光产生侧向运动信息,其指示手指相对于传感器阵列的横向移动。
    • 6. 发明授权
    • Optical finger navigation device with integrated tactile switch
    • 光学手指导航装置,集成触觉开关
    • US08212776B2
    • 2012-07-03
    • US12236286
    • 2008-09-23
    • Hung Kwang LeeSai Mun LeeYat Kheng Leong
    • Hung Kwang LeeSai Mun LeeYat Kheng Leong
    • G09G5/08
    • G06F3/042
    • A system of a tactile switch and an optical navigation device. The system includes a user device. The user device includes an optical finger navigation device. The optical finger navigation device enables a user to control a function of the user device via the optical finger navigation device. The optical finger navigation device includes a circuit board, a sensor array electrically coupled to the circuit board, and a tactile switch electrically coupled to the circuit board. The sensor array detects light and generates a navigation signal that corresponds to the detected light. The tactile switch is physically aligned with the sensor array on the circuit board. The tactile switch generates a switch signal upon actuation of the tactile switch in response to a force on a packaging structure of the sensor array.
    • 一种触觉开关和光学导航装置的系统。 该系统包括用户设备。 用户装置包括光学手指导航装置。 光学手指导航装置使得用户能够经由光学手指导航装置来控制用户装置的功能。 光学手指导航装置包括电路板,电耦合到电路板的传感器阵列和电耦合到电路板的触觉开关。 传感器阵列检测光并产生对应于检测到的光的导航信号。 触觉开关与电路板上的传感器阵列物理对准。 触觉开关响应于传感器阵列的包装结构上的力而触发触觉开关时产生开关信号。
    • 7. 发明申请
    • LENSLESS USER INPUT DEVICE WITH OPTICAL INTERFERENCE
    • 具有光学干扰的无线用户输入设备
    • US20100078545A1
    • 2010-04-01
    • US12239131
    • 2008-09-26
    • Yat Kheng LeongSai Mun LeeHung Kwang LeeJin Kiong Ang
    • Yat Kheng LeongSai Mun LeeHung Kwang LeeJin Kiong Ang
    • H01J40/14
    • G06F3/042G06F3/03543
    • An optical navigation device which uses optical interference to generate navigation images. The optical navigation device includes an optical element, a light source, a sensor array, a navigation engine, and a light shield. The optical element includes a finger interface surface. The light source includes a laser in optical communication with the finger interface surface to provide light to the finger interface surface. The sensor array detects light reflected from the finger interface surface in response to contact between a finger and the finger interface surface. The navigation engine is coupled to the sensor array. The navigation engine generates lateral movement information based on lateral movement of the finger relative to the sensor array. The light shield is between the optical element and the sensor array. The light shield includes an aperture linearly aligned with the sensor array.
    • 一种使用光学干涉生成导航图像的光学导航装置。 光学导航装置包括光学元件,光源,传感器阵列,导航引擎和遮光罩。 光学元件包括手指接口表面。 光源包括与手指接口表面光学通信的激光,以向手指接口表面提供光。 传感器阵列响应于手指和手指接口表面之间的接触来检测从手指界面表面反射的光。 导航引擎耦合到传感器阵列。 导航引擎基于手指相对于传感器阵列的横向移动产生横向运动信息。 光屏蔽在光学元件和传感器阵列之间。 遮光罩包括与传感器阵列线性对准的孔。
    • 8. 发明申请
    • OPTICAL FINGER NAVIGATION DEVICE WITH INTEGRATED TACTILE SWITCH
    • 具有整体式战术开关的光学手指导航装置
    • US20100071967A1
    • 2010-03-25
    • US12236286
    • 2008-09-23
    • Hung Kwang LeeSai Mun LeeYat Kheng Leong
    • Hung Kwang LeeSai Mun LeeYat Kheng Leong
    • G06F3/042
    • G06F3/042
    • A system of a tactile switch and an optical navigation device. The system includes a user device. The user device includes an optical finger navigation device. The optical finger navigation device enables a user to control a function of the user device via the optical finger navigation device. The optical finger navigation device includes a circuit board, a sensor array electrically coupled to the circuit board, and a tactile switch electrically coupled to the circuit board. The sensor array detects light and generates a navigation signal that corresponds to the detected light. The tactile switch is physically aligned with the sensor array on the circuit board. The tactile switch generates a switch signal upon actuation of the tactile switch in response to a force on a packaging structure of the sensor array.
    • 一种触觉开关和光学导航装置的系统。 该系统包括用户设备。 用户装置包括光学手指导航装置。 光学手指导航装置使得用户能够经由光学手指导航装置来控制用户装置的功能。 光学手指导航装置包括电路板,电耦合到电路板的传感器阵列和电耦合到电路板的触觉开关。 传感器阵列检测光并产生对应于检测到的光的导航信号。 触觉开关与电路板上的传感器阵列物理对准。 触觉开关响应于传感器阵列的包装结构上的力而触发触觉开关时产生开关信号。
    • 10. 发明申请
    • DUAL-CHANNEL OPTICAL NAVIGATION DEVICE
    • 双通道光学导航装置
    • US20090279270A1
    • 2009-11-12
    • US12117775
    • 2008-05-09
    • Hun Kwang LeeYat Kheng LeongSai Mun Lee
    • Hun Kwang LeeYat Kheng LeongSai Mun Lee
    • H05K5/00H05K7/00H05K3/30H05K1/18
    • G06F3/0317H05K1/181Y10T29/49133
    • A dual-channel optical navigation system with vertically aligned sensors. The dual-channel optical navigation system includes a circuit board, a contact navigation sensor, and a free-space navigation sensor. The circuit board mechanically supports and electrically connects multiple navigation sensors on opposing sides of the circuit board. The contact navigation sensor is coupled to a first side of the circuit board. The contact navigation sensor generates a contact navigation signal based on contact navigation images of a contact navigation surface approximately adjacent to the dual-channel optical navigation system. The free-space navigation sensor is coupled to a second side of the circuit board. The free-space navigation sensor generates a free-space navigation signal based on free-space navigation images of an operating environment of the dual-channel optical navigation system.
    • 具有垂直对齐传感器的双通道光学导航系统。 双通道光学导航系统包括电路板,接触式导航传感器和自由空间导航传感器。 电路板在电路板的相对侧上机械地支撑并电连接多个导航传感器。 接触导航传感器耦合到电路板的第一侧。 接触导航传感器基于与双通道光学导航系统近似的接触导航表面的接触导航图像生成接触导航信号。 自由空间导航传感器耦合到电路板的第二侧。 自由空间导航传感器基于双通道光学导航系统的操作环境的自由空间导航图像生成自由空间导航信号。