Abstract: Embodiments include a dither system comprising a support member to support a sensor housing having a common line-of-sight (LOS). A first metal bellows is coupled to the support member and being concentric to the sensor housing to constrain rotational motion of the sensor housing and allow angular motion. An eccentric cam comprising: an outer circumference having an axis coaxial with an axis of the first bellows and an inner circumference including an axis laterally offset from the axis of the first bellow. The eccentric cam drives tilt motion of the sensor housing and LOS. A second metal bellows is coaxial to the inner circumference of the eccentric cam and being concentric to the sensor housing. A position measurement system coupled to the sensor housing tracks the tilt motion of the sensor housing with respect to the angular motion of the eccentric cam. A system and method are also provided.

Abstract: Embodiments include a dither system comprising a support member to support a sensor housing having a common line-of-sight (LOS). A first metal bellows is coupled to the support member and being concentric to the sensor housing to constrain rotational motion of the sensor housing and allow angular motion. An eccentric cam comprising: an outer circumference having an axis coaxial with an axis of the first bellows and an inner circumference including an axis laterally offset from the axis of the first bellow. The eccentric cam drives tilt motion of the sensor housing and LOS. A second metal bellows is coaxial to the inner circumference of the eccentric cam and being concentric to the sensor housing. A position measurement system coupled to the sensor housing tracks the tilt motion of the sensor housing with respect to the angular motion of the eccentric cam. A system and method are also provided.

Abstract: An apparatus for shock isolating an electronics package includes an outer member including an internal threaded portion and a transition member including an external threaded portion and a hollow inner portion that defines a cavity configured for receiving the electronics package. A layer of mechanically compliant shock isolation material is positioned between the inner thread portion of the outer member and the external thread portion of the transition member. The compliant shock isolation material encloses a front end and sidewalls of the transition member and is absent from its aft end to allow access to one end of the electronics package (e.g. to a connector). The internal threaded portion of the outer member and the external threaded portion of the transition member are compliantly engaged via a gap provided by the layer of compliant shock isolation material. In one embodiment the electronics package is a fuze assembly.

Abstract: A window has at least two surfaces oriented relative to each other at an angle greater than zero. A conductive path is disposed across the two surfaces and renders the window reflective or absorptive to a second predetermined bandwidth of energy, which can be radio frequency energy. The window utilizes window geometry, surface treatments, and bonding techniques to maintain electrical continuity across the surface. The window can be constructed from multiple segmented elements, such as sapphire, or from a unitary body. The window is transmissive to a desired wavelength of energy for the sensor while being reflective, refractive, or absorptive to a desired RF bandwidth of energy. The window provides RF signature management coupled with a substantial sensor Field of Regard and allows for full-time use of an embedded sensor.

Abstract: A window has at least two surfaces oriented relative to each other at an angle greater than zero. A conductive path is disposed across the two surfaces and renders the window reflective or absorptive to a second predetermined bandwidth of energy, which can be radio frequency energy. The window utilizes window geometry, surface treatments, and bonding techniques to maintain electrical continuity across the surface. The window can be constructed from multiple segmented elements, such as sapphire, or from a unitary body. The window is transmissive to a desired wavelength of energy for the sensor while being reflective, refractive, or absorptive to a desired RF bandwidth of energy. The window provides RF signature management coupled with a substantial sensor Field of Regard and allows for full-time use of an embedded sensor.