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    • 1. 发明申请
    • METHOD AND APPARATUS FOR HIGH SPEED LVDS COMMUNICATION
    • 用于高速LVDS通信的方法和装置
    • US20100014620A1
    • 2010-01-21
    • US12438564
    • 2007-08-28
    • Remus AlbuPeter J>M> JanssenJohn DeanGene TurkenichAlok Govil
    • Remus AlbuPeter J>M> JanssenJohn DeanGene TurkenichAlok Govil
    • H04L7/00
    • H04L7/0012H04L7/042H04L25/0272
    • A method and system communicates payload data over a plurality of low voltage differential signaling (LVDS) channels (50). First device (100) transmits the payload data and synchronization information to the second device (150) over N LVDS channels (50), along with a word clock synchronized to the payload data. The second device generates M LVDS receive clocks from the word clock, each having a same frequency that is P times a frequency of the word clock, and each having a different phase. Each of N LVDS receivers (160) of the second device (150): correlates the synchronization data with a reference word using each of the M LVDS receive clocks to produce a correlation value for each of the M LVDS receive clocks; selects a selected LVDS receive clock producing a greatest correlation value; and receives the payload data for the corresponding LVDS channel (50) using the selected LVDS receive clock.
    • 一种方法和系统通过多个低压差分信号(LVDS)信道(50)传送有效载荷数据。 第一设备(100)通过N个LVDS信道(50)将有效载荷数据和同步信息与同步于有效载荷数据的字时钟一起发送到第二设备(150)。 第二个装置从字时钟产生M LVDS接收时钟,每个具有相同的频率,P是字时钟的频率,每个具有不同的相位。 第二装置(150)的N个LVDS接收器(160)中的每一个:使用每个M LVDS接收时钟来使同步数据与参考字相关,以产生每个M LVDS接收时钟的相关值; 选择产生最大相关值的选定LVDS接收时钟; 并使用所选择的LVDS接收时钟接收对应的LVDS信道(50)的净荷数据。
    • 2. 发明授权
    • Record carrier with an optically readable trackwise-arranged information
structure
    • 记录载体,具有光学可读的轨迹排列信息结构
    • US4839882A
    • 1989-06-13
    • US128417
    • 1980-03-10
    • Peter J. M. Janssen
    • Peter J. M. Janssen
    • G11B7/007G11B7/085
    • G11B7/0079G11B7/007G11B7/085G11B7/24079
    • A record carrier is described with an optically readable trackwise-arranged information structure, and an apparatus for reading said carrier. The distances between the tracks of the information structure vary so that by projecting, in addition to a read spot, at least one address spot to the information structure of a size such that is spans a number of tracks approximately equal the quotient of the average track distance and the amplitude of the track distance variation, the read spot can be rapidly addressed to a specific group of tracks. This is done with the aid of two detectors which are disposed in the path of the address-beam radiation which is diffracted in a first order by the information structure in a direction transverse to the track direction.
    • 记录载体用光学上可读的轨道排列信息结构描述,以及用于读取所述载体的装置。 信息结构的轨道之间的距离变化,使得除了读取点之外,通过将至少一个地址点投影到尺寸的信息结构,使得跨越多个轨道的轨道近似等于平均轨道的商 距离和轨道距离变化的幅度,读取点可以快速寻址到特定的一组轨道。 这是借助于两个检测器来完成的,这两个检测器设置在沿着与轨道方向横切的方向上由信息结构以一级衍射的地址束辐射的路径中。
    • 3. 发明授权
    • Method and apparatus for high speed LVDS communication
    • 用于高速LVDS通信的方法和装置
    • US08098692B2
    • 2012-01-17
    • US12438564
    • 2007-08-28
    • Remus AlbuPeter J. M. JanssenJohn DeanGene TurkenichAlok Govil
    • Remus AlbuPeter J. M. JanssenJohn DeanGene TurkenichAlok Govil
    • H04J3/06H04L7/027
    • H04L7/0012H04L7/042H04L25/0272
    • A method and system communicates payload data over a plurality of low voltage differential signaling (LVDS) channels (50). First device (100) transmits the payload data and synchronization information to the second device (150) over N LVDS channels (50), along with a word clock synchronized to the payload data. The second device generates M LVDS receive clocks from the word clock, each having a same frequency that is P times a frequency of the word clock, and each having a different phase. Each of N LVDS receivers (160) of the second device (150): correlates the synchronization data with a reference word using each of the M LVDS receive clocks to produce a correlation value for each of the M LVDS receive clocks; selects a selected LVDS receive clock producing a greatest correlation value; and receives the payload data for the corresponding LVDS channel (50) using the selected LVDS receive clock.
    • 一种方法和系统通过多个低压差分信号(LVDS)信道(50)传送有效载荷数据。 第一设备(100)通过N个LVDS信道(50)将有效载荷数据和同步信息与同步于有效载荷数据的字时钟一起发送到第二设备(150)。 第二个装置从字时钟产生M LVDS接收时钟,每个具有相同的频率,P是字时钟的频率,每个具有不同的相位。 第二装置(150)的N个LVDS接收器(160)中的每一个:使用每个M LVDS接收时钟来使同步数据与参考字相关,以产生每个M LVDS接收时钟的相关值; 选择产生最大相关值的选定LVDS接收时钟; 并使用所选择的LVDS接收时钟接收对应的LVDS信道(50)的净荷数据。
    • 6. 发明授权
    • Digital image projector with oriented fixed-polarization-axis polarizing beamsplitter
    • 数字图像投影机,带定向偏振轴偏振分光镜
    • US06896371B2
    • 2005-05-24
    • US10308659
    • 2002-12-03
    • Jeffrey A. ShimizuPeter J. M. JanssenStephen McClain
    • Jeffrey A. ShimizuPeter J. M. JanssenStephen McClain
    • G02F1/13G02B27/28G02F1/1335G03B21/00H04N5/74H04N9/31G03B21/14
    • H04N9/3117G02B27/283H04N5/7441
    • A digital image projector includes an illumination-light source lamp and illumination beam forming optics for forming a white-spectrum illumination beam and color-band-separation optics to divide the illumination beam into color-component subbeams. The digital image projector also includes a reflective digital-image-encoding polarization modulator mechanism such as a reflective liquid crystal display polarization modulator to reflectively modulate the linearly polarized subbeams to form color-component image encoded-polarization subbeams and projection lens optics for projecting a color image divided from the image encoded-polarization subbeams. The digital image projector further includes a plate-supported, surface mounted fixed polarization-axis polarizing beamsplitter such as a wire-grid polarizing beamsplitter for dividing the color image from the image-encoded-polarization subbeams in which a polarizer support plate of the polarizing beamsplitter faces an illumination-source side of the optical system of the projector.
    • 数字图像投影仪包括照明光源灯和用于形成白光照明光束的照明光束形成光学器件以及将照明光束分成彩色分量子光束的彩色带分离光学器件。 数字图像投影仪还包括反射数字图像编码偏振调制器机构,例如反射式液晶显示偏振调制器,用于反射地调制线性偏振子束以形成彩色分量图像编码偏振子光束和用于投影颜色的投影透镜光学元件 图像从图像编码偏振子束分离。 数字图像投影仪还包括板支撑的表面安装的固定偏振轴偏振分束器,例如用于将彩色图像与来自图像编码的偏光子束分开的线栅偏振分束器,其中偏振分束器的偏振器支撑板 面向投影仪的光学系统的照明源侧。
    • 8. 发明授权
    • Alignment of the optical and the electrical scan in a scrolling color projector
    • 滚动彩色投影仪中的光学和电子扫描的对准
    • US06690432B2
    • 2004-02-10
    • US09833895
    • 2001-04-12
    • Peter J. M. JanssenJeffrey A. ShimizuJohn E. DeanDouglas A. Stanton
    • Peter J. M. JanssenJeffrey A. ShimizuJohn E. DeanDouglas A. Stanton
    • H04N931
    • H04N9/312H04N9/3117
    • A prism is mounted onto a motor without regard to its rotation angle relative to the motor index. Its position is electronically set later after construction of the optical path. A motor controller is used to control the rotation of the prism. This motor controller keeps the prism spinning at a constant velocity and positions the prism phase (rotation angle versus time). A variable offset is used to position the absolute prism rotation as a function of time. The phase may be advanced or delayed by an operator during set up. Each prism has its own phase. The phase of each prism in the system is set so that the illumination pattern correctly matches the video addressing of the panel. This is a one time set up during construction. The correct positions are set, and stored in non-volatile memory for life.
    • 棱镜安装在马达上,而不考虑其相对于马达索引的旋转角度。 它的位置在光路构建后稍后进行电子设置。 电机控制器用于控制棱镜的旋转。 该电机控制器保持棱镜以恒定的速度旋转并定位棱镜相位(旋转角度对时间)。 使用可变偏移量将绝对棱镜旋转定位为时间的函数。 在设置期间,操作者可以提前或延迟该阶段。 每个棱镜都有自己的相位。 系统中的每个棱镜的相位被设置为使得照明图案正确地匹配面板的视频寻址。 这是施工期间的一次设置。 设置正确的位置,并将其存储在非易失性存储器中。