Methods and apparatus for beam steering using steerable beam antennas with switched parasitic elements
First Claim
1. A wireless communication device configured for beam steering, comprising:
- two or more one dimensional switched beam antennas stacked vertically;
wherein each one dimensional switched beam antenna comprises;
a planar circular structure;
a radiating element located at the center of the planar circular structure;
one or more of parasitic elements located on a contour around the radiating element, wherein the parasitic elements are aligned in parallel direction with the radiating element, wherein the parasitic elements protrude from the planar circular structure; and
a processor;
a memory in electronic communication with the processor, the memory having instructions stored in the memory, the instructions being executable by the processor to;
switch the one or more parasitic elements to act as reflectors, wherein any of the one or more parasitic elements acts as a reflector when a switch between a parasitic element and ground is in a first position and the parasitic element is shorted to ground;
switch the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground, or when the switch is in a third position creating a closed circuit between the parasitic element, a reactive load as part of a passive circuit, and ground;
feed transmission signal streams to radiating elements on each one dimensional switched beam antenna to form a beam;
adjust the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and
adjust phase differences between each transmission signal stream fed to the radiating elements on the two or more one dimensional switched beam antennas to steer the direction of the vertically stacked two or more one dimensional switched beam antennas in elevation.
1 Assignment
0 Petitions
Accused Products
Abstract
An antenna is described. The antenna includes a planar circular structure. The antenna also includes a radiating element located at the center of the planar circular structure. The antenna further includes one or more parasitic elements located on a contour around the radiating element. The parasitic elements are aligned in parallel direction with the radiating element. The parasitic elements protrude from the planar circular structure. The antenna includes switches separating each of the one or more parasitic elements from ground. A switch in a first position creates a short between a parasitic element and ground. A switch in a second position creates an open circuit between the parasitic element and ground.
30 Citations
20 Claims
-
1. A wireless communication device configured for beam steering, comprising:
-
two or more one dimensional switched beam antennas stacked vertically; wherein each one dimensional switched beam antenna comprises; a planar circular structure; a radiating element located at the center of the planar circular structure; one or more of parasitic elements located on a contour around the radiating element, wherein the parasitic elements are aligned in parallel direction with the radiating element, wherein the parasitic elements protrude from the planar circular structure; and a processor; a memory in electronic communication with the processor, the memory having instructions stored in the memory, the instructions being executable by the processor to; switch the one or more parasitic elements to act as reflectors, wherein any of the one or more parasitic elements acts as a reflector when a switch between a parasitic element and ground is in a first position and the parasitic element is shorted to ground; switch the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground, or when the switch is in a third position creating a closed circuit between the parasitic element, a reactive load as part of a passive circuit, and ground; feed transmission signal streams to radiating elements on each one dimensional switched beam antenna to form a beam; adjust the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and adjust phase differences between each transmission signal stream fed to the radiating elements on the two or more one dimensional switched beam antennas to steer the direction of the vertically stacked two or more one dimensional switched beam antennas in elevation. - View Dependent Claims (2, 3, 4)
-
-
5. A method for beam steering, the method comprising:
-
switching one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, wherein any of the one or more parasitic elements acts as a reflector when a switch between the parasitic element and ground is in a first position and the parasitic element is shorted to ground; switching the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; and adjusting the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth. - View Dependent Claims (6, 7, 8, 9, 10, 11)
-
-
12. A wireless communication device configured for beam steering, comprising:
-
means for switching one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, wherein any of the one or more parasitic elements acts as a reflector when a switch between the parasitic element and ground is in a first position and the parasitic element is shorted to ground; means for switching the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; means for vertically stacking each one dimensional beam antenna to form a vertical phased array; means for feeding transmission signal streams to radiating elements on the vertically stacked one dimensional switched beam antennas; means for adjusting the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and means for adjusting phase differences between the transmission signal streams fed to the vertically stacked one dimensional switched beam antennas that form the vertical phased array to steer the direction of the vertically stacked two or more one dimensional switched beam antennas in elevation. - View Dependent Claims (13, 14)
-
-
15. A computer-readable medium encoded with computer-executable instructions, wherein execution of the computer-executable instructions is for:
-
switching one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, each one dimensional switched beam antenna vertically stacked to from a vertical phased array, wherein any of the one or more parasitic elements acts as a reflector when a switch between the parasitic element and ground is in a first position and the parasitic element is shorted to ground; switching the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; feeding transmission signal streams to radiating elements on the vertically stacked one dimensional switched beam antennas; adjusting the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each vertically stacked one dimensional switched beam antenna over the 360 degree azimuth; and adjusting phase differences between the transmission signal streams fed to the radiating elements on the vertically stacked one dimensional switched beam antennas to steer the direction of the vertically stacked one dimensional switched beam antennas in elevation.
-
-
16. A wireless communication device configured for beam steering, comprising:
-
two or more one dimensional switched beam antennas stacked vertically; a processor; memory in electronic communication with the processor; instructions stored in the memory, the instructions being executable by the processor to; switch one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, each one dimensional switched beam antenna vertically stacked to from a vertical phased array, wherein any of the one or more parasitic elements acts as a reflector when a switch between a parasitic element and ground is in a first position and the parasitic element is shorted to ground; switch the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; receive transmission signal streams from radiating elements on each one dimensional switched beam antenna; adjust the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and adjust phase differences between each transmission signal stream received by the radiating elements on the vertically stacked one dimensional switched beam antennas to steer the direction of the vertically stacked one dimensional switched beam antennas in elevation. - View Dependent Claims (17)
-
-
18. A wireless communication device configured for beam steering, comprising:
-
means for switching one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, each one dimensional switched beam antenna vertically stacked to from a vertical phased array, wherein any of the one or more parasitic elements acts as a reflector when a switch between a parasitic element and ground is in a first position and the parasitic element is shorted to ground; means for switching the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; means for receiving transmission signal streams from radiating elements on each one dimensional switched beam antenna; means for adjusting the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and means for adjusting phase differences between each transmission signal stream received by the radiating elements on the vertically stacked one dimensional switched beam antennas to steer the direction of the vertically stacked one dimensional switched beam antennas in elevation. - View Dependent Claims (19)
-
-
20. A wireless communication device configured for beam steering, wherein the wireless communication device has a computer-readable medium encoded with computer-executable instructions, wherein execution of the computer-executable instructions is for:
-
switching one or more parasitic elements to act as reflectors, the one or more parasitic elements located on a contour in one or more planar circular structures, wherein each planar circular includes a radiating element at its center to form a one dimensional switched beam antenna, each one dimensional switched beam antenna vertically stacked to from a vertical phased array, wherein any of the one or more parasitic elements acts as a reflector when a switch between a parasitic element and ground is in a first position and the parasitic element is shorted to ground; switching the parasitic elements not acting as reflectors to act as directors, wherein any of the parasitic elements acts as a director when the switch between the parasitic element and ground is in a second position creating an open circuit between the parasitic element and ground; receiving transmission signal streams from radiating elements on each one dimensional switched beam antenna; adjusting the configuration of the parasitic elements acting as reflectors and directors to steer the direction of each one dimensional switched beam antenna over the 360 degree azimuth; and adjusting phase differences between each transmission signal stream received by the radiating elements on the vertically stacked one dimensional switched beam antennas to steer the direction of the vertically stacked one dimensional switched beam antennas in elevation.
-
Specification