公开(公告)号：WO2013176644A1

公开(公告)日：2013-11-28

申请号：PCT/US2012/038748

申请日：2012-05-21

Applicant: RAYTHEON COMPANY ,  STOKES, Robert M. ,  BOWSER, William M. ,  BOLEN, Clint E. ,  STILLER, Jerry L.

Inventor： STOKES, Robert M. ,  BOWSER, William M. ,  BOLEN, Clint E. ,  STILLER, Jerry L.

IPC: F41G3/06 ,  F41G1/40 ,  F41G1/46

CPC classification number: F41G1/46 ,  F41G1/40 ,  F41G1/41 ,  F41G1/48 ,  F41G3/06

Abstract: An optical super-elevation device including an elevation follower mirror that counter-rotates with an opposite angular rate to the weapon elevation rate, thereby maintaining the line of sight to the target during the elevation process. In one example, the optical super-elevation device includes a modular housing having a mounting bracket configured to fixedly mount to at a weapon or azimuth axis of a tripod, an elevation follower mirror rotatably mounted within the housing, and a mirror actuator coupled to the elevation follower mirror and configured to counter-rotate the elevation follower mirror at an angular rate opposite to an elevation rate of the weapon to maintain a line of sight to a target during super-elevation of the weapon.

Abstract translation: 一种光学超高程装置，包括与武器升高速率相反的角速度反转的升降跟随器反射镜，从而在升高过程期间将瞄准线保持在目标上。 在一个示例中，光学超高程装置包括具有安装支架的模块化壳体，该安装支架被配置为固定地安装在三脚架的武器或方位轴线处，可转动地安装在壳体内的升降从动反射镜以及耦合到 升降跟随镜并且被配置为以与武器的升高速度相反的角速度反转旋转升降跟随镜，以在武器的超提升期间保持瞄准目标。

公开(公告)号：WO2010083079A1

公开(公告)日：2010-07-22

申请号：PCT/US2010/020289

申请日：2010-01-07

Applicant: RAYTHEON COMPANY ,  SESSLER, Todd, E. ,  KUIKEN, Matthew, T. ,  STOKES, Robert, M. ,  BOWSER, William, M.

Inventor： SESSLER, Todd, E. ,  KUIKEN, Matthew, T. ,  STOKES, Robert, M. ,  BOWSER, William, M.

IPC: G01J1/44 ,  G01J5/24 ,  G01J5/20 ,  G01J5/22

CPC classification number: G01J5/22 ,  G01J5/0285 ,  G01J5/20 ,  G01J5/24

Abstract: A method includes determining a signal current based on an average current associated with one or more detectors. The method also includes determining a strip voltage based on the signal current. The method further includes biasing a strip resistance with the strip voltage. The biasing of the strip resistance creates a strip current. The method additionally includes biasing a detector array with a detector voltage. The biasing of the detector array creates a detector current. The method also includes determining levels of incident radiation from a scene based on the strip current and the detector current.

Abstract translation: 一种方法包括基于与一个或多个检测器相关联的平均电流来确定信号电流。 该方法还包括基于信号电流确定条带电压。 该方法还包括利用带电压来偏置带状电阻。 带状电阻的偏置产生带状电流。 该方法另外包括用检测器电压偏置检测器阵列。 检测器阵列的偏置产生检测器电流。 该方法还包括基于条带电流和检测器电流来确定来自场景的入射辐射的水平。