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    • 1. 发明申请
    • LIGHT ANALYZER DEVICE AND METHOD FOR DETECTING OBJECTS UTILIZING THE LIGHT ANALYZER DEVICE
    • 用于检测使用光分析器装置的物体的光分析装置和方法
    • US20080252878A1
    • 2008-10-16
    • US11735606
    • 2007-04-16
    • Andrzej M. PawlakDavid K. Lambert
    • Andrzej M. PawlakDavid K. Lambert
    • G01N21/00H01L27/00
    • H01L27/14649
    • A light analyzer device and a method for detecting objects utilizing the light analyzer device are provided. The light analyzer device includes a focal plane array configured to receive the light that has passed through a light filter and to generate a first digital image based on the light that has passed through the light filter. The light analyzer device further includes a microprocessor operably coupled to the focal plane array. The microprocessor is configured to receive the first digital image, and to determine whether the first digital image corresponds to a stored digital image. The light analyzer device further includes a light emitting device operably coupled to the microprocessor. The microprocessor is further configured to induce the light emitting device to output a visual indicator indicating that the first digital image corresponds to the stored digital image.
    • 提供一种光分析装置和利用该光分析装置检测物体的方法。 光分析器装置包括:焦平面阵列,被配置为接收已经通过滤光器的光,并且基于已经通过滤光器的光产生第一数字图像。 光分析器装置还包括可操作地耦合到焦平面阵列的微处理器。 微处理器被配置为接收第一数字图像,并且确定第一数字图像是否对应于存储的数字图像。 光分析器装置还包括可操作地耦合到微处理器的发光装置。 微处理器还被配置成诱导发光装置输出指示第一数字图像对应于所存储的数字图像的视觉指示符。
    • 2. 发明授权
    • Light analyzer device and method for detecting objects utilizing the light analyzer device
    • 光分析装置及利用光分析装置检测物体的方法
    • US07435936B1
    • 2008-10-14
    • US11735606
    • 2007-04-16
    • Andrzej M. PawlakDavid K. Lambert
    • Andrzej M. PawlakDavid K. Lambert
    • H01L27/00
    • H01L27/14649
    • A light analyzer device and a method for detecting objects utilizing the light analyzer device are provided. The light analyzer device includes a focal plane array configured to receive the light that has passed through a light filter and to generate a first digital image based on the light that has passed through the light filter. The light analyzer device further includes a microprocessor operably coupled to the focal plane array. The microprocessor is configured to receive the first digital image, and to determine whether the first digital image corresponds to a stored digital image. The light analyzer device further includes a light emitting device operably coupled to the microprocessor. The microprocessor is further configured to induce the light emitting device to output a visual indicator indicating that the first digital image corresponds to the stored digital image.
    • 提供一种光分析装置和利用该光分析装置检测物体的方法。 光分析器装置包括焦平面阵列,其构造成接收已经通过滤光器的光并且基于已经通过滤光器的光产生第一数字图像。 光分析器装置还包括可操作地耦合到焦平面阵列的微处理器。 微处理器被配置为接收第一数字图像,并且确定第一数字图像是否对应于存储的数字图像。 光分析器装置还包括可操作地耦合到微处理器的发光装置。 微处理器还被配置成诱导发光装置输出指示第一数字图像对应于所存储的数字图像的视觉指示符。
    • 9. 发明授权
    • Sensor for dissolved air in brake fluid and method of using the same
    • 制动液中溶解空气的传感器及其使用方法
    • US5361624A
    • 1994-11-08
    • US144382
    • 1993-11-02
    • David K. LambertMark W. VerbruggeBrian J. Koch
    • David K. LambertMark W. VerbruggeBrian J. Koch
    • G01N27/49G01N33/28G01N27/26
    • G01N27/49G01N33/2841
    • The present invention includes a microelectrode which achieves a surface-renewal advantage. The sensor and method directly controls the oxidizing and reducing nature of the electrode interface by controlling the cell potential, thereby protecting the sensing electrode's surface during periods in which the sensor is not being used. The microelectrode is biased at a small positive potential relative to the counterelectrode, except when a measurement is desired. To measure oxygen concentrations in brake fluid, the microelectrode is biased at a greater potential and the current is measured. After the current measurement, the potential is returned to the small positive potential. The oxygen concentration (and thus the amount of air) in the brake fluid is linearly related to the current measured.
    • 本发明包括实现表面更新优势的微电极。 传感器和方法通过控制电池电位来直接控制电极界面的氧化和还原性质,从而在不使用传感器的时段期间保护感测电极的表面。 除了需要测量之外,微电极相对于反电极被偏置在小的正电位。 为了测量制动液中的氧浓度,微电极被偏置在更大的电位,并测量电流。 电流测量后,电位返回到小的正电位。 制动液中的氧气浓度(以及因此的空气量)与所测量的电流线性相关。