会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Automatic calibration method for use in electronic compass
    • 自动校准方法用于电子罗盘
    • US06871411B1
    • 2005-03-29
    • US10757497
    • 2004-01-15
    • Jin Yong KangWon Tae ChoiChang Hyun KimHa Woong JeongHan Chul JoOh Jo Kwon
    • Jin Yong KangWon Tae ChoiChang Hyun KimHa Woong JeongHan Chul JoOh Jo Kwon
    • G01C17/32G01C17/38
    • G01C17/38
    • An automatic calibration method for use in an electronic compass. Using the automatic calibration method, the electronic compass automatically calculates and corrects offset and scale values of a geomagnetic signal by detecting one rotation of a geomagnetic axis during a predetermined period of time. The electronic compass calculates an azimuth angle upon receiving geomagnetic data from the geomagnetic sensor, and finds maximum and minimum values of sensor signals of individual axes of the geomagnetic sensor using the received geomagnetic data such that it can correct or calibrate deviation of the azimuth angle. When a time consumed for calibration is the same or shorter than a maximum calibration effective time, the electronic compass determines whether a current state of the detected entry signal indicates a predetermined steady-state flow. If the current state indicates the steady-state flow, at the same time a signal indicative of one rotation of the geomagnetic sensor is received, and the time consumed for calibration is longer than a predetermined minimum calibration effective time, the electronic compass calculates offset and scale values using the maximum and minimum values and stores the calculated offset and scale values.
    • 一种用于电子罗盘的自动校准方法。 使用自动校准方法,电子罗盘通过在预定时间段内检测地磁轴的一次旋转,自动计算和校正地磁信号的偏移和比例值。 电子罗盘在从地磁传感器接收地磁数据时计算方位角,并使用接收到的地磁数据找出地磁传感器各个轴的传感器信号的最大值和最小值,使其可以校正或校准方位角的偏差。 当校准消耗的时间与最大校准有效时间相同或更短时,电子罗盘确定检测到的进入信号的当前状态是否表示预定的稳态流。 如果当前状态指示稳态流,则同时接收到表示地磁传感器一次旋转的信号,并且校准消耗的时间长于预定的最小校准有效时间,电子罗盘计算偏移和 使用最大值和最小值进行比例值,并存储计算的偏移量和比例值。
    • 6. 发明授权
    • Pixel array and organic light emitting display device including the same
    • 像素阵列和包括其的有机发光显示装置
    • US09443473B2
    • 2016-09-13
    • US13912528
    • 2013-06-07
    • Oh-Jo KwonJoo-Hyung LeeWon-Tae Choi
    • Oh-Jo KwonJoo-Hyung LeeWon-Tae Choi
    • G09G3/30G06F3/038G09G3/32
    • G09G3/3275G09G3/2003G09G3/3208G09G2300/0819G09G2310/0262G09G2320/0295G09G2320/043G09G2320/045
    • A pixel array and an organic light emitting display device including the same, can display an image with uniform luminance by compensating for a variation in threshold voltage/mobility of a driving transistor for each pixel and compensating for a change in efficiency due to degradation of an organic light emitting diode. A first pixel among the pixel array includes an organic light emitting diode; a pixel circuit positioned among an anode electrode of the organic light emitting diode, a first scan line and a first data line through which a data signal is supplied to the first pixel, and controlling current flowing in the organic light emitting diode; and a switching element controlling the coupling between a second data line through which a data signal is supplied to a second pixel of the plurality of pixels and the anode electrode of the organic light emitting diode.
    • 像素阵列和包括该像素阵列的有机发光显示装置可以通过补偿每个像素的驱动晶体管的阈值电压/迁移率的变化来补偿具有均匀亮度的图像,并补偿由于劣化导致的效率的变化 有机发光二极管。 像素阵列中的第一像素包括有机发光二极管; 位于有机发光二极管的阳极之间的像素电路,第一扫描线和第一数据线,数据信号通过该第一数据线提供给第一像素,并控制在有机发光二极管中流动的电流; 以及开关元件,其控制将数据信号提供给所述多个像素中的第二像素的第二数据线与所述有机发光二极管的所述阳极之间的耦合。
    • 9. 发明授权
    • Method of compensating tilt using two-axis geomagnetic sensor, and acceleration sensor, and apparatus thereof
    • 使用二轴地磁传感器补偿倾斜的方法,以及加速度传感器及其装置
    • US07305315B2
    • 2007-12-04
    • US11300341
    • 2005-12-15
    • Oh Jo KwonWon Tae ChoiChang Hyun Kim
    • Oh Jo KwonWon Tae ChoiChang Hyun Kim
    • G01C17/38G01F17/00
    • G01C17/38
    • The present general inventive concept relates to a method of compensating tilt using a two-axis geomagnetic sensor and an acceleration sensor and an apparatus. Using the principle where a geomagnetic field value measured in a state where one axis of the two-axis geomagnetic sensor is set up vertically is identical to a Z-axis geomagnetic field value, the Z-axis geomagnetic field value can be evaluated by using two axes of the two-axis geomagnetic sensor. Accordingly, an azimuth angle can be easily calculated, so that the azimuth angle changed by tilt can be compensated. Therefore, there is an effect that a constant azimuth can be always output even though tilt occurs. In addition, when a module of the two-axis geomagnetic sensor and the acceleration sensor is used in a mobile equipment, the two-axis geomagnetic sensor can automatically measure geomagnetic field values of three axes by a simple motion where a user vertically sets up or rotates up and down the mobile equipment. Therefore, there is an effect that a constant azimuth angle can be always output by compensating the azimuth angle changed by tilt.
    • 本发明总体构思涉及使用两轴地磁传感器和加速度传感器以及装置来补偿倾斜的方法。 使用在两轴地磁传感器的一个轴垂直设置的状态下测量的地磁场值与Z轴地磁场值相同的原理,Z轴地磁场值可以通过使用两个 双轴地磁传感器的轴。 因此,可以容易地计算方位角,从而可以补偿由倾斜变化的方位角。 因此,存在即使发生倾斜也能够始终输出恒定方位角的效果。 另外,当在移动设备中使用双轴地磁传感器和加速度传感器的模块时,双轴地磁传感器可以通过简单的运动自动测量三轴的地磁场值,用户垂直设置或 在移动设备上上下旋转。 因此,通过补偿由倾斜变化的方位角,可以总是输出恒定方位角的效果。