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    • 2. 发明授权
    • High temperature photodetector array
    • 高温光电探测器阵列
    • US5436442A
    • 1995-07-25
    • US124527
    • 1993-09-22
    • Gerald J. MichonHarold W. Tomlinson, Jr.Jerome J. Tiemann
    • Gerald J. MichonHarold W. Tomlinson, Jr.Jerome J. Tiemann
    • G01J3/453G01J9/02G06E3/00H01J40/14
    • G01J3/453G06E3/005G01J2003/4538
    • An optical detection system includes an array of photodetectors, each of which is positioned for receiving light and converting the light into an electrical signal. A plurality of high pass filters is positioned with each one of the high pass filters electrically coupled to a respective photodetector for passing a portion of a respective electrical signal having frequency components at least as high as the high pass filter cutoff frequency. In one embodiment, each one of the filters comprises a capacitance coupled to the photodetector and a depletion mode FET with shorted gate-to-source terminals coupled between the photodetector and a bias voltage source. Each of the FETs comprises a silicon substrate, a silicon dioxide first insulative layer having a trench and a first conductive layer covering a portion of the first insulative layer including a portion of the trench, and each of the capacitances comprises the first conductive layer, a second insulative layer covering a portion of the first conductive layer, and a second conductive layer covering a portion of the second insulative layer.
    • 光学检测系统包括光电检测器阵列,每个光电检测器被定位成用于接收光并将光转换成电信号。 定位多个高通滤波器,其中每个高通滤波器电耦合到相应的光电检测器,用于使具有至少与高通滤波器截止频率一样高的频率分量的相应电信号的一部分通过。 在一个实施例中,滤波器中的每一个包括耦合到光电检测器的电容器和耦合在光电检测器和偏置电压源之间的具有短路栅极至源极端子的耗尽型FET。 每个FET包括硅衬底,具有沟槽的二氧化硅第一绝缘层和覆盖包括沟槽的一部分的第一绝缘层的一部分的第一导电层,并且每个电容包括第一导电层, 覆盖第一导电层的一部分的第二绝缘层和覆盖第二绝缘层的一部分的第二导电层。
    • 6. 发明授权
    • Flame sensor window coating compensation
    • 火焰传感器窗户涂层补偿
    • US5578828A
    • 1996-11-26
    • US339845
    • 1994-11-15
    • Dale M. BrownGerald J. Michon
    • Dale M. BrownGerald J. Michon
    • F01D21/00F23N5/08G01N21/72G01J1/42F02C9/28G01J5/10
    • F23N5/08F01D21/003G01N21/72F23N2023/48F23N2029/22Y02T50/677
    • Intensity of optical emission from a combustion flame within a gas turbine combustor is monitored through an optical window in the combustor wall by a primary detector. Because the window is susceptible to becoming coated with deposits during combustor operation, compensation for presence of a coating is achieved by directing illumination from an optical signal source, such as a silicon carbide light-emitting diode, into the window for internal reflection at an optical interface defined by the combustion side surface. A compensation detector, such as a silicon carbide photodiode, detects intensity of the internally reflected illumination as an indicator of the window coating thickness. The compensation detector is located at a non-combustion side of the window, along with a reference detector that responds to intensity of optical signal source illumination reflected from the non-combustion side surface of the window. An AC coupled differential synchronous detector circuit processes the compensation detector and reference detector output signals to compensate the primary detector output signals for the coating.
    • 燃气轮机燃烧器内的燃烧火焰的光发射强度通过主探测器通过燃烧器壁中的光学窗口进行监测。 因为窗口在燃烧器运行期间容易被沉积物涂覆,所以通过将来自诸如碳化硅发光二极管的光信号源的照明引导到用于内部反射的光学窗口中来实现对涂层的存在的补偿 接口由燃烧侧表面限定。 诸如碳化硅光电二极管的补偿检测器检测内部反射照明的强度作为窗口涂层厚度的指示。 补偿检测器位于窗口的非燃烧侧,以及响应于从窗口的非燃烧侧表面反射的光信号源照射的强度的参考检测器。 AC耦合差分同步检测器电路处理补偿检测器和参考检测器输出信号,以补偿涂层的主要检测器输出信号。
    • 7. 发明授权
    • Solid state imaging apparatus
    • 固态成像装置
    • US4860073A
    • 1989-08-22
    • US444933
    • 1982-11-29
    • Gerald J. Michon
    • Gerald J. Michon
    • H01L27/146
    • H01L27/14643
    • An array of charge storage devices each including a pair of closely coupled conductor-insulator-semiconductor capacitors or cells, one a row line connected cell and the other a column line connected cell, is provided on a common semiconductor substrate. The charge stored in a row of devices is read out by transferring charge from a column cell to a row cell and then back again to the column cell by reducing and then increasing the absolute value of the voltage on column cell of each of the devices of the row in sequence. The resultant change in voltage produced on the row line is sensed and an electrical signal is obtained representing the charge stored at each of the devices of the row. During the readout operation the voltage on each of the column cells is reduced to below threshold voltage of the cells to allow the fixed amount of charge trapped in the surface states of each of the column cells to recombine with majority carriers in the substrate thereby reducing the charge stored in each of the devices of the array by this fixed amount of charge.
    • 每个包括一对紧密耦合的导体 - 绝缘体 - 半导体电容器或单元的电荷存储装置的阵列设置在共同的半导体衬底上。 通过将电荷从列单元转移到行单元,然后再次返回到列单元,通过减少然后增加每个单元的列单元上的电压的绝对值来读出存储在一行器件中的电荷 该行顺序。 感测到在行线上产生的电压的所得改变,并且获得表示存储在行的每个设备处的电荷的电信号。 在读出操作期间,每个柱单元上的电压降低到单元的阈值电压以下,以使每个柱单元的表面状态中捕获的固定量的电荷与衬底中的多数载流子重新组合,从而减少 存储在阵列的每个设备中的电荷通过固定的电荷量存储。
    • 8. 发明授权
    • CID image sensor with a preamplifier for each sensing array row
    • CID图像传感器带有每个感测阵列行的前置放大器
    • US4689688A
    • 1987-08-25
    • US872982
    • 1986-06-11
    • Gerald J. Michon
    • Gerald J. Michon
    • H04N5/355H04N5/369H04N3/14
    • H04N3/1518
    • A charge injection device image sensor, having increased sensitivity and dynamic range, uses a two dimensional array of cells having m rows each with n cells arranged in n columns. Peripheral electronics first reset all cells along each of the columns, then sequentially scan each column to generate a row voltage signal before advancing to the next sequential row and repetitively scanning across the cells until all array cells have been raster scanned. A voltage preamplifier is connected to each associated row to amplify the video signal only when the cells along that row are being scanned, and reduces the total capacitance of the row-selection electronics.
    • 具有增加的灵敏度和动态范围的电荷注入装置图像传感器使用具有m行的具有n行排列成n列的m行的单元的二维阵列。 外围电子设备首先将每个列的所有单元复位,然后顺序扫描每列以产生行电压信号,然后前进到下一个顺序行,并跨单元格重复扫描,直到所有阵列单元格都被光栅扫描。 电压前置放大器连接到每个相关联的行以仅在沿着该行的单元被扫描时放大视频信号,并且降低行选择电子器件的总电容。