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    • 3. 发明授权
    • System for calibrating a monochromator
    • 用于校准单色仪的系统
    • US4779216A
    • 1988-10-18
    • US837438
    • 1986-03-07
    • John B. Collins
    • John B. Collins
    • G01J3/06G01J3/28G01C25/00G06F15/20
    • G01J3/28G01J2003/066G01J2003/2866
    • A method for calibrating a monochromator to compensate for mechanical imperfections in its diffraction grating and grating drive assembly employs a two stage interactive procedure which permits the use of small (0.2 nm) spectral regions for the identification of emission lines. An iterative, self-consistent, discrete Fourier transform is used for the determination of multiple positioning correction terms. When the Fourier calculations are completed, the results of the calibration procedure are presented by the system to the analyst for acceptance. If accepted, the positioning error of the primary calibration line is measured, stored and used by the system to maintain a zero centered distribution of positioning errors each time the monochromator is reinitialized.
    • 用于校准单色仪以补偿其衍射光栅和光栅驱动组件中的机械缺陷的方法采用两级交互式过程,其允许使用小(0.2nm)光谱区域来识别发射线。 迭代,自相一致的离散傅里叶变换用于确定多个定位校正项。 当傅里叶计算完成时,校准程序的结果由系统提交给分析师进行验收。 如果接受,主要校准线的定位误差由系统测量,存储和使用,以便在每次单色仪重新初始化时保持定位误差的零中心分布。
    • 6. 发明授权
    • Dispersive spectrometry installation with multi-channel detection
    • 具有多通道检测功能的分光光度仪安装
    • US5164786A
    • 1992-11-17
    • US720708
    • 1991-06-25
    • Michel DelhayeEdouard Da SilvaBernard Roussel
    • Michel DelhayeEdouard Da SilvaBernard Roussel
    • G01J3/36G01J3/06G01J3/28G01J3/32
    • G01J3/2803G01J3/06G01J2003/066G01J2003/2826G01J2003/2833G01J2003/2893G01J2003/2896G01J2003/326G01J3/0294G01J3/32
    • The invention relates to a spectrometry installation comprising an inlet, optical fiber means suitable for receiving an inlet beam and delivering a spectrally dispersed image of the beam which image is limited to a selected spectral band, a multi-channel detection module receiving said spectral image, and processor means. The optical filter means are provided with a deflector stage. Control means are associated with the optical deflector means to define the spectral band in terms of center frequency and band width, and control means are associated therewith for displacing the spectral image over the detection module. An electronic control unit is provided to control the control means and to control the processor means in a plurality of operating modes, each of which comprises joint control of the selected spectral band, of the displacement of the spectral image, and of the processor means, for the purpose of selectively using a particular set of detector components.
    • 本发明涉及一种光谱测量装置,其包括入口,适于接收入射光束的光纤装置,并将该光束的光谱分散图像传送到所选择的光谱带,多通道检测模块接收所述光谱图像, 和处理器装置。 滤光器装置设置有偏转器级。 控制装置与光学偏转器装置相关联以根据中心频率和带宽限定光谱带,并且控制装置与其相关联,用于使检测模块上的光谱图像移位。 提供电子控制单元以控制控制装置并且以多个操作模式来控制处理器装置,每个操作模式包括所选频谱带的联合控制,频谱图像的位移以及处理器装置, 以便选择性地使用特定的一组检测器部件。
    • 7. 发明授权
    • Scanning monochromator
    • 扫描单色仪
    • US5096295A
    • 1992-03-17
    • US664592
    • 1991-03-01
    • Robert J. KrupaEdward E. OwenStanley L. Shiller
    • Robert J. KrupaEdward E. OwenStanley L. Shiller
    • G01J3/06
    • G01J3/06G01J2003/063G01J2003/066
    • In its preferred embodiment, a scanning monochromator uses a pulse-driven micro-stepping motor to drive a spectral-dispersion element via a reduction-gear harmonic drive. The motor is directly coupled to the input hub of the reduction-gear drive, and the output hub of the reduction-gear drive directly supports the spectral-dispersion element. By selecting a motor with a great number of steps per revolution, and a harmonic drive with a great reduction ratio, a resolution of 5 million pulsed steps is available, per single rotation of the output hub of the reduction-gear drive. This translates into more than 600,000 incremental angular-displacement steps over a usable 45.degree. range of dispersion-element rotation.
    • 在其优选实施例中,扫描单色仪使用脉冲驱动微步进电机经由减速齿轮谐波驱动来驱动频谱色散元件。 电机直接连接在减速齿轮传动装置的输入轮毂上,减速齿轮传动装置的输出轮毂直接支撑分光元件。 通过选择每转数很多的电机,以及减速比大的谐波驱动器,减速齿轮传动的输出轮毂每旋转一次就可以获得500万次脉冲步进的分辨率。 这在可用的45°范围的分散体旋转中转化为超过60万个增量角位移步长。