Phase shifter and line scanner for phased array applications
First Claim
1. A semiconductor waveguide scanning antenna, comprising in combination:
- a length of semiconductor waveguide of rectangular cross section adapted to propagate wave energy along a longitudinal axis transverse to said cross section and having a plurality of spaced parallel metallic elements selectively located on one surface of said waveguide along its length which act as perturbations that interact with the propagated wave energy to produce at least a first radiation pattern directed outwardly from said one surface at a predetermined radiation angle;
distributed PIN diode means formed from contiguous layers of semiconductive material located on an adjacent surface of said waveguide which is perpendicular to said one surface, said layers being disposed orthogonally with respect to and projecting outwardly from said adjacent surface, so that the PIN diode means lies entirely outside of the rectangular cross section of the semiconductor waveguide, a dielectric insulator layer disposed between said PIN diode means and said adjacent surface; and
means coupled to said PIN diode means for applying a bias potential thereto for controlling the conductivity of said PIN diode means which has the effect of varying the wavelength of said semiconductor waveguide and accordingly the radiation angle of said first radiation pattern.
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Accused Products
Abstract
A millimeter wave line scanner is disclosed providing steered fan-shaped ms from opposite faces at substantially equal angles of a semiconductor waveguide, rectangular in cross section, and having a plurality of equally spaced metallic perturbations or strips disposed on one of the two radiating sides or faces. Different angles of scan are selectively obtained by means of at least one distributed longitudinal PIN diode formed on an adjoining side of the semiconductor waveguide having electrical circuit means coupled thereto for controlling the diode'"'"'s conductivity which acts to change the guide wavelength and accordingly cause a variation in radiation angle of the two equal beams radiating from opposite faces. The waveguide with one or more PIN diodes may also be used as a phase shifter. To reduce losses, a dielectric insulating layer is disposed between each PIN diode and the waveguide, which prevents the propagation of the wave into the PIN diode.
17 Citations
5 Claims
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1. A semiconductor waveguide scanning antenna, comprising in combination:
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a length of semiconductor waveguide of rectangular cross section adapted to propagate wave energy along a longitudinal axis transverse to said cross section and having a plurality of spaced parallel metallic elements selectively located on one surface of said waveguide along its length which act as perturbations that interact with the propagated wave energy to produce at least a first radiation pattern directed outwardly from said one surface at a predetermined radiation angle; distributed PIN diode means formed from contiguous layers of semiconductive material located on an adjacent surface of said waveguide which is perpendicular to said one surface, said layers being disposed orthogonally with respect to and projecting outwardly from said adjacent surface, so that the PIN diode means lies entirely outside of the rectangular cross section of the semiconductor waveguide, a dielectric insulator layer disposed between said PIN diode means and said adjacent surface; and means coupled to said PIN diode means for applying a bias potential thereto for controlling the conductivity of said PIN diode means which has the effect of varying the wavelength of said semiconductor waveguide and accordingly the radiation angle of said first radiation pattern. - View Dependent Claims (3, 4, 5)
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2. A length of semiconductor waveguide of rectangular cross section adapted to propagate wave energy along a longitudinal axis transverse to said cross section;
distributed PIN diode means formed from contiguous layers of semiconductive material located on one surface of said waveguide, said layers being disposed orthogonally with respect to and projecting outwardly from said one surface, so that the PIN diode means lies entirely outside of the rectangular cross section of the semiconductor waveguide, a dielectric insulator layer disposed between said PIN diode means for applying a bias potential thereto for controlling the conductivity of said PIN diode means which has the effect of varying the wavelength of said semiconductor waveguide and accordingly the phase of said propagated wave energy.
Specification