Abstract:
A passive locking mechanism for a telescoping structure includes a stud fixed to a first panel section, a lower pawl coupled to a second panel section, an upper pawl coupled to the second panel section operable to engage the lower pawl, and a lock wedge coupled to a third panel section. The lock wedge is operable to engage the upper and lower pawls. In a retracted position of the telescoping structure, the lower pawl is engaged with the lock wedge, such that the second panel section is locked in place relative to the third panel section, and the first panel section is free to move relative to the second panel section.
Abstract:
A telescoping mast with a cable system configured to secure the cable within the space between mast sections, wherein in the stowed configuration, the cable has an expanded zigzag arrangement, and in the deployed configuration, the cable has a compressed zigzag arrangement.
Abstract:
An antenna system comprises a reflector subsystem, a rotatable support structure and a support member. The reflector subsystem receives an input beam and reflects the input beam to produce an output beam steered in elevation by an elevation reflector and in azimuth by an azimuth reflector, towards a target. The rotatable support structure is operably coupled to the azimuth reflector and to the elevation reflector and is configured to rotate them simultaneously. The support member comprises a lengthwise portion coupled to the rotatable support structure and an offset portion coupled to the elevation reflector, the offset portion configured to offset the elevation reflector from the lengthwise portion. The offset portion is configured to enable clearance of the elevation reflector during beam steering of the output beam to extreme ends of a range of motion of the elevation reflector.
Abstract:
A passive locking mechanism for a telescoping structure includes a stud fixed to a first panel section, a lower pawl coupled to a second panel section, an upper pawl coupled to the second panel section operable to engage the lower pawl, and a lock wedge coupled to a third panel section. The lock wedge is operable to engage the upper and lower pawls. In a retracted position of the telescoping structure, the lower pawl is engaged with the lock wedge, such that the second panel section is locked in place relative to the third panel section, and the first panel section is free to move relative to the second panel section.
Abstract:
Methods and apparatus for a dual polarization super-element radiator assembly. In one embodiment, an assembly comprises a first waveguide, a series of slot couplers formed in the first waveguide, first and second conductive strips, a second waveguide adjacent to the first waveguide, a series of notches formed in a conductive material extending along or parallel to the longitudinal axis of the second waveguide, the notches having respective throats, a series of slots located proximate the notch throats, and a third conductive strip disposed over and aligned with the notches, wherein the slot couplers and the notches provide a dual polarization super-element radiator.
Abstract:
A telescoping mast with a cable system configured to secure the cable within the space between mast sections, wherein in the stowed configuration, the cable has an expanded zigzag arrangement, and in the deployed configuration, the cable has a compressed zigzag arrangement.