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71. 发明申请

US20120256159A1 LED Device Architecture Employing Novel Optical Coating and Method of Manufacture 审中-公开
标题翻译：使用新型光学涂层的LED器件结构及其制造方法
公开(公告)号：US20120256159A1
公开(公告)日：2012-10-11
申请号：US13513823
申请日：2010-04-01
申请人： Jamie Knapp
发明人： Jamie Knapp
IPC分类号： H01L33/04
CPC分类号： H01L33/46 , H01L33/005 , H01L33/10 , H01L33/505
摘要： An improved LED device is disclosed and includes at least one active layer in communication with an energy source and configured to emit a first electromagnetic signal within a first wavelength range and at least a second electromagnetic signal within at least a second wavelength range, a substrate configured to support the active layer, at least one coating layer formed from alternating layers of silicon carbide and alumina applied to a surface of the substrate, the coating layer configured to reflect at least 95% of the first electromagnetic signal at the first wavelength range and transmit at least 95% of the second electromagnetic signal at the second wavelength range, at least one metal layer applied to the coating layer and configured to transmit the second electromagnetic signal at the second wavelength range therethrough, and an encapsulation device positioned to encapsulate the active layer.
摘要翻译：公开了一种改进的LED器件，并且包括与能量源通信的至少一个有源层，并且被配置为在第一波长范围内发射第一电磁信号，并且在至少第二波长范围内发射至少第二电磁信号，衬底配置为了支撑活性层，至少一层由碳化硅和氧化铝的交替层形成的涂层施加到衬底的表面上，涂层被配置为反射第一电磁信号的至少95％在第一波长范围并传输在所述第二波长范围的所述第二电磁信号的至少95％，施加到所述涂层并且被配置为透过所述第二波长范围的所述第二电磁信号的至少一个金属层，以及定位成将所述有源层。

72. 发明申请

US20120235013A1 Instrumented Platform For Vibration Sensitive Equipment 有权
标题翻译：振动敏感设备仪表平台
公开(公告)号：US20120235013A1
公开(公告)日：2012-09-20
申请号：US13479206
申请日：2012-05-23
申请人： Vyacheslav M. Ryaboy , Warren Booth
发明人： Vyacheslav M. Ryaboy , Warren Booth
IPC分类号： F16F15/02 , F16M11/00
CPC分类号： F16F15/005 , A47B13/08 , A47B37/00 , A47B2037/005 , F16F7/1011 , F16F15/002 , F16F15/02 , F16M11/18 , G01H13/00
摘要： A platform that includes a vibration sensor located within an inner core of a table. The table may have a first plate that supports a vibration-sensitive payload. The first plate may be separated from a second plate by the inner core. The sensor can be located within the core directly below the device. The sensor can be connected to an electrical connector attached to an external surface of the table. A monitor can be readily plugged into the electrical connector to obtain vibration data from the sensor. The platform may also include a damper located within the inner core to reduce vibration of the table. The damper may be an active device that is connected to control circuits located within, or outside, the inner core.
摘要翻译：一个平台，包括位于桌子内核内的振动传感器。桌子可以具有支撑振动敏感有效载荷的第一板。第一板可以通过内芯与第二板分离。传感器可以位于设备正下方的核心内。传感器可以连接到连接到桌子外表面的电气连接器。监视器可以容易地插入到电连接器中以从传感器获得振动数据。平台还可以包括位于内芯内的减震器，以减小工作台的振动。阻尼器可以是有源装置，其连接到位于内芯内或外部的控制电路。

73. 发明授权

US08231098B2 Methods and devices for active vibration damping of an optical structure 有权
标题翻译：光学结构主动减振的方法和装置
公开(公告)号：US08231098B2
公开(公告)日：2012-07-31
申请号：US11293439
申请日：2005-12-02
申请人： Vyacheslav M. Ryaboy , Prakash S. Kasturi , Adrian S. Nastase
发明人： Vyacheslav M. Ryaboy , Prakash S. Kasturi , Adrian S. Nastase
IPC分类号： F16M13/00
CPC分类号： G01N21/01 , B60N2/54 , F16F15/002 , F16F15/02 , F16F15/10 , F16F2230/18 , G01M11/00 , G02B7/02 , G05B19/042 , G05B2219/39199
摘要： A vibration damper assembly that may be attached and moved about a payload or optical mount surface of an optical structure such as an optical table. The vibration damper assembly may include a sensor and an actuator that may be disposed within a housing. In some embodiments, the vibration damper assembly or components thereof may be incorporated into an optical structure in the form of an optical component to be disposed or mounted on an optical mount surface of an optical structure such as an optical table. Embodiments of the vibration damper system may include a controller in communication with the damper assembly Embodiments of the controller may use adaptive tuning, auto-ranging selection of gain factors and other features in order to optimize damping performance.
摘要翻译：振动阻尼器组件，其可以围绕诸如光学平台的光学结构的有效载荷或光学安装表面附接和移动。振动阻尼器组件可以包括可设置在壳体内的传感器和致动器。在一些实施例中，振动阻尼器组件或其组件可以结合到光学构件的形式的光学结构中，以被布置或安装在诸如光学平台的光学结构的光学安装表面上。振动阻尼器系统的实施例可以包括与阻尼器组件通信的控制器。控制器的实施例可以使用自适应调谐，增益因子的自动量程选择和其他特征，以便优化阻尼性能。

74. 发明授权

US08218587B2 Automated bandwidth / wavelength adjustment systems and methods for short pulse lasers and optical amplifiers 有权
标题翻译：用于短脉冲激光器和光放大器的自动带宽/波长调整系统和方法
公开(公告)号：US08218587B2
公开(公告)日：2012-07-10
申请号：US12790653
申请日：2010-05-28
申请人： Ventzislav Stoev , Kevin Holsinger , David S. Bell , Olaf Korth
发明人： Ventzislav Stoev , Kevin Holsinger , David S. Bell , Olaf Korth
IPC分类号： H01S3/10
CPC分类号： H01S3/105 , H01S3/08004 , H01S3/0805 , H01S3/094038 , H01S3/10069 , H01S3/1022 , H01S3/106 , H01S3/1068 , H01S3/1109 , H01S3/1306
摘要： Embodiments are directed to systems and methods for adjusting a wavelength, bandwidth or both. Such systems and methods may be applicable to laser beams within a laser cavity or amplifier. For some embodiments, such systems and methods may be used to allow a user to set a desired wavelength and bandwidth of a short pulse laser system for operation at those parameters without further adjustment by the user.
摘要翻译：实施例涉及用于调整波长，带宽或两者的系统和方法。这样的系统和方法可以适用于激光腔或放大器内的激光束。对于一些实施例，这样的系统和方法可以用于允许用户设置短脉冲激光系统的期望波长和带宽，以在这些参数下进行操作，而无需用户的进一步调整。

75. 发明申请

US20120168271A1 Tunable Vibration Dampers and Methods of Manufacture and Tuning 有权
标题翻译：可调谐振动阻尼器和制造和调谐方法
公开(公告)号：US20120168271A1
公开(公告)日：2012-07-05
申请号：US13338164
申请日：2011-12-27
申请人： Vyacheslav M. Ryaboy
发明人： Vyacheslav M. Ryaboy
IPC分类号： F16F7/10
CPC分类号： F16F15/02 , B23P6/00 , F16F7/104 , F16F7/116 , G01M5/0066 , Y10T29/49718
摘要： Embodiments are directed to tunable damper embodiments and methods of using the same for damping resonant and non-resonant vibrations present within an object that the tunable damper is secured to. In some cases, the tunable damper may be tuned before, during or after being secured to an object.
摘要翻译：实施例涉及可调节阻尼器实施例及其使用方法，用于阻尼存在于可调节阻尼器所固定的物体内的谐振和非共振振动。在一些情况下，可调谐阻尼器可以在固定到物体之前，期间或之后被调谐。

76. 发明授权

US08194076B2 Auto-scaling strip chart 有权
标题翻译：自动缩放条形图
公开(公告)号：US08194076B2
公开(公告)日：2012-06-05
申请号：US13187280
申请日：2011-07-20
申请人： William Culpi , William E. Bryant , John M. Rickman
发明人： William Culpi , William E. Bryant , John M. Rickman
IPC分类号： G09G5/22
CPC分类号： G06T11/206
摘要： Systems and methods are disclosed for displaying a strip chart on an electronic display. A furthest extremum value of the measured quantity is recorded over a period of time and a plurality of values of the measured quantity are displayed on the strip chart. The furthest extremum value is used to automatically rescale the strip chart, providing for at least one bound of the zoomed range. In response to receiving a selection of a zoom factor defining a degree of magnification of the strip chart, the strip chart is automatically scaled to a degree of magnification commensurate with the zoom factor and the strip chart may be automatically scaled such that the strip chart is bounded on one side by one of a furthest extremum maximum or minimum value and the other one of the furthest extremum maximum or minimum value is not displayed on the strip chart.
摘要翻译：公开了用于在电子显示器上显示条带图的系统和方法。在一段时间内记录测量量的最大极值，并且在条形图上显示测量量的多个值。最大极值用于自动重新缩放条形图，提供缩放范围的至少一个界限。响应于接收到定义条形图的放大倍率的缩放因子的选择，带状图被自动缩放到与缩放因子相当的放大倍数，并且条带图可以被自动缩放，使得带状图是在最大极值最大值或最小值之间的一边界限，最远极值最大值或最小值中的另一个不显示在条形图上。

77. 发明申请

US20110273478A1 AUTO-SCALING STRIP CHART 有权
标题翻译：自动调整条形图
公开(公告)号：US20110273478A1
公开(公告)日：2011-11-10
申请号：US13187280
申请日：2011-07-20
申请人： William Culpi , William E. Bryant , John M. Rickman
发明人： William Culpi , William E. Bryant , John M. Rickman
IPC分类号： G09G5/00
CPC分类号： G06T11/206
摘要： Systems and methods are disclosed for displaying a strip chart on an electronic display. A furthest extremum value of the measured quantity is recorded over a period of time and a plurality of values of the measured quantity are displayed on the strip chart. The furthest extremum value is used to automatically rescale the strip chart, providing for at least one bound of the zoomed range. In response to receiving a selection of a zoom factor defining a degree of magnification of the strip chart, the strip chart is automatically scaled to a degree of magnification commensurate with the zoom factor and the strip chart may be automatically scaled such that the strip chart is bounded on one side by one of a furthest extremum maximum or minimum value and the other one of the furthest extremum maximum or minimum value is not displayed on the strip chart.
摘要翻译：公开了用于在电子显示器上显示条带图的系统和方法。在一段时间内记录测量量的最大极值，并且在条形图上显示测量量的多个值。最大极值用于自动重新缩放条形图，提供缩放范围的至少一个界限。响应于接收到定义条形图的放大倍率的缩放因子的选择，带状图被自动缩放到与缩放因子相当的放大倍数，并且条带图可以被自动缩放，使得带状图是在最大极值最大值或最小值之间的一边界限，最远极值最大值或最小值中的另一个不显示在条形图上。

78. 发明授权

US07962046B2 Automated dispersion compensation over a broad wavelength range for coherent optical pulses 有权
标题翻译：在相干光脉冲的宽波长范围内的自动色散补偿
公开(公告)号：US07962046B2
公开(公告)日：2011-06-14
申请号：US11983583
申请日：2007-11-09
申请人： Dmitri A. Oulianov , Stefan Marzenell , Richard Boggy
发明人： Dmitri A. Oulianov , Stefan Marzenell , Richard Boggy
IPC分类号： H04B10/12 , G01J3/00 , G21H3/02 , G21K5/00 , H01S3/16
CPC分类号： H04B10/25137 , H04B10/25133
摘要： The present application is directed to an apparatus and method for the automated compensation of dispersion over a broad wavelength range for coherent optical pulses. In one embodiment, the present application discloses an automatic dispersion compensating optical apparatus configured to change chirp introduced into an optical signal by an optical system in optical communication with the dispersion compensating optical apparatus and includes at least one wavelength-tunable source of coherent optical pulses configured to output at least one optical signal, at least one dispersion compensation device configured to receive the optical signal from the coherent source, and at least one controller in communication with the dispersion compensation device and configured to adjust chirp introduced into the optical signal by the dispersion compensation device as the wavelength of the optical signal is varied.
摘要翻译：本申请涉及用于在相干光脉冲的宽波长范围内自动补偿色散的装置和方法。在一个实施例中，本申请公开了一种自动色散补偿光学装置，其被配置为通过与色散补偿光学装置进行光通信的光学系统来改变被引入到光信号中的啁啾，并且包括至少一个波长可调谐相干光脉冲源配置输出至少一个光信号，至少一个色散补偿装置，被配置为从所述相干光源接收所述光信号;以及至少一个控制器，其与所述色散补偿装置通信并且被配置为通过所述色散补偿来调整被引入到所述光信号中的啁啾作为光信号的波长的补偿装置是变化的。

79. 发明授权

US07709782B2 Optical assembly with adjustable optical element and independently tunable position sensors 失效
标题翻译：具有可调光学元件和独立可调位置传感器的光学组件
公开(公告)号：US07709782B2
公开(公告)日：2010-05-04
申请号：US11653809
申请日：2007-01-16
申请人： Evan Drake Harriaman Green , Carl Iacono , Jan-Willem Pieterse
发明人： Evan Drake Harriaman Green , Carl Iacono , Jan-Willem Pieterse
IPC分类号： H01J40/14
CPC分类号： G02B7/1827 , G02B7/1822 , G02B7/1825 , G02B7/20
摘要： A device assembly (16) for a precision apparatus (10) includes a device housing (30), a device (32), a device mover assembly (34), and a measurement system (36). The device mover assembly (34) moves the device (32) relative to the device housing (30) about a first axis and about a second axis that is orthogonal to the first axis. The measurement system (36) monitors movement of the device (32). The measurement system (36) monitors movement of the device (32) and can include a first sensor assembly (260) that monitors movement about the first axis and a second sensor assembly (262) that monitors movement about a second axis. Each sensor assembly (260) (262) can include a sensor adjuster (474) (476) that adjusts the position of a portion of the respective sensor assembly (260) (262) to independently tune the sensor assemblies (260) (262) and independently enhance the performance of each sensor assembly (260) (262). Further, each sensor assembly (260) (262) can be a magnetic type sensor.
摘要翻译：一种用于精密设备（10）的设备组件（16）包括设备壳体（30），设备（32），设备移动器组件（34）和测量系统（36）。装置移动器组件（34）围绕第一轴线和与第一轴线正交的第二轴线相对于装置壳体（30）移动装置（32）。测量系统（36）监视设备（32）的移动。测量系统（36）监测设备（32）的运动并且可以包括监测关于第一轴线的运动的第一传感器组件（260）和监测关于第二轴线的运动的第二传感器组件（262）。每个传感器组件（260）（262）可以包括传感器调节器（474）（476），其调节相应传感器组件（260）（262）的一部分的位置以独立调谐传感器组件（260）（262）并且独立地增强每个传感器组件（260）（262）的性能。此外，每个传感器组件（260）（262）可以是磁性传感器。

80. 发明授权

US07679845B2 Adjustable/non-adjustable precision optical mounts 失效
标题翻译：可调/不可调精密光学安装座
公开(公告)号：US07679845B2
公开(公告)日：2010-03-16
申请号：US11627307
申请日：2007-01-25
申请人： Xiwen Wang
发明人： Xiwen Wang
IPC分类号： G02B7/02 , G03B3/00 , G01C15/00
CPC分类号： G02B7/004 , G02B7/023
摘要： A highly precision, super stable, structure compact and fully lockable ball joint mechanism optical mounts are presented. Both stationary plate and movable plate have a partial-spherical hole or conical hole. Facing spacing aligns the bases of the partial-spherical holes or conical holes; a space adjustable cavity is formed. An external-spherical circumference shape optical element carrier plate fits and mates in the space adjustable combined cavity forms a ball joint mechanism, or an external-column circumference and edges chamfered optical element carrier plate fits and mates in the space adjustable combined internal-spherical shaped cavity forms an angle tilt-able and around axis swivel-able joint pair mechanism. A removable tooling for exporting a tilting and rotating movement to the optical element carrier plate are presented. Locking ring pushes the movable plate to adjust the combined cavity and locking the optical element carrier plate and to lock optical element that is carried thereby.
摘要翻译：提出了一种高精度，超稳定，结构紧凑，全锁定球接头机构光学座架。固定板和活动板均具有局部球形孔或锥形孔。面对间距对准部分球形孔或锥形孔的基部; 形成空间可调节空腔。外球面圆形光学元件承载板配合并配合在空间可调组合腔中形成球接头机构，或外柱圆周边缘倒角光学元件承载板配合并配合在可调节的组合内球形腔形成角度可倾斜和围绕轴可旋转接头对机构。提出了用于将倾斜和旋转运动导出到光学元件载体板的可移除工具。锁定环推动可动板调整组合腔体并锁定光学元件托板并锁定由此承载的光学元件。

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