An antenna includes a first body having a ring monopole and a second body positioned below the first body. The second body can have a plurality of notched ring resonators. A spacer can be positioned between the first and second bodies. In some embodiments, the second body can define an artificial gr
An antenna includes a first body having a ring monopole and a second body positioned below the first body. The second body can have a plurality of notched ring resonators. A spacer can be positioned between the first and second bodies. In some embodiments, the second body can define an artificial ground. In addition, the ring resonators can be arranged and configured to generate a 180° phase difference between polarized waves so that a radiated wave from the ring monopole and a reflected wave from the artificial ground have orthogonal polarizations and a 90° phase difference to form a circularly polarized radiated wave.
대표청구항▼
1. An antenna comprising: a first body having a ring monopole;a second body positioned below the first body, the second body having a plurality of resonators, the second body defining an artificial ground; anda spacer positioned between the first body and the second body;wherein the resonators are a
1. An antenna comprising: a first body having a ring monopole;a second body positioned below the first body, the second body having a plurality of resonators, the second body defining an artificial ground; anda spacer positioned between the first body and the second body;wherein the resonators are arranged and configured to generate a 180° phase difference between polarized waves so that a radiated wave from the ring monopole and a reflected wave from the artificial ground have orthogonal polarizations and a 90° phase difference to form a circularly polarized radiated wave. 2. The antenna of claim 1, wherein the first body has the ring monopole on or in a substrate and the resonators of the second body are ring resonators that are arranged in a two by two array, and wherein the ring resonators are backed by a metallic sheet. 3. The antenna of claim 1, wherein the resonators are backed by a metallic sheet. 4. The antenna of claim 1, wherein each of the resonators is a ring resonator having opposite angled sides, each of the opposite angled sides having a notch defined therein. 5. The antenna of claim 4, wherein the second body defines an anisotropic artificial ground. 6. The antenna of claim 5, wherein the first body has the ring monopole on or in a substrate and the resonators of the second body are ring resonators that are arranged in a two by two array, and wherein the ring resonators are backed by a metallic sheet. 7. The antenna of claim 1, wherein the first body has a feed line that is configured to maintain a 50 ohm characteristic impedance that extends from a first side of the ring monopole, the ring monopole having a second side and a third side connected to the first side and a fourth side connected to the third side and the second side to define a central opening; and each of the resonators defining a central opening, each of the resonators having a first side, a second side that extends linearly from the first side, a third side that extends linearly from the second side, a fourth side that extends linearly from the second side to a fifth side, the fifth side extending linearly from the fourth side to a sixth side, the sixth side extending linearly from the fifth side to the first side, the fourth side being opposite and parallel to the first side, the first side having a notch defined therein and the fourth side having a notch defined therein, the notch of the first side and the notch of the fourth side being in communication with the central opening. 8. The antenna of claim 1, wherein an entire footprint of the antenna is 50 mm long by 50 mm wide and has a 6 mm thickness. 9. The antenna of claim 1, wherein the antenna is configured to have a radius of curvature that is between 50 mm and 100 mm. 10. A communication device, the communication device comprising: a processor connected to non-transitory memory and a transceiver unit, the transceiver unit being connected to an antenna, the antenna comprising: a first body having a ring monopole; anda second body positioned below the first body, the second body having a plurality of resonators;wherein the resonators are arranged and configured to generate a 180° phase difference between polarized waves so that a radiated wave from the ring monopole and a reflected wave from a portion of the second body have orthogonal polarizations and a 90° phase difference to form a circularly polarized radiated wave. 11. The communication device of claim 10, wherein the antenna also comprises a spacer positioned between the first body and the second body; and wherein first body has a feed line that is configured to maintain a 50 ohm characteristic impedance that extends from a first side of the ring monopole, the ring monopole having a second side and a third side connected to the first side and a fourth side connected to the third side and the second side to define a central opening; andwherein each of the resonators define a central opening, each of the resonators having a first side, a second side that extends linearly from the first side, a third side that extends linearly from the second side, a fourth side that extends linearly from the second side to a fifth side, the fifth side extending linearly from the fourth side to a sixth side, the sixth side extending linearly from the fifth side to the first side, the fourth side being opposite and parallel to the first side, the first side having a notch defined therein and the fourth side having a notch defined therein, the notch of the first side and the notch of the fourth side being in communication with the central opening. 12. The communication device of claim 11, wherein the first body has the ring monopole on or in a substrate and the resonators of the second body are ring resonators that are arranged in a two by two array, and wherein the ring resonators are backed by a metallic sheet. 13. The communication device of claim 11, wherein the resonators are ring resonators that are backed by a metallic sheet. 14. The communication device of claim 11, wherein each of the resonators is a ring resonator having opposite angled sides, each of the opposite angled sides having a notch defined therein. 15. The communication device of claim 14, wherein the second body defines an anisotropic artificial ground. 16. The communication device of claim 15, wherein the portion of the second body defines an artificial ground and the first body includes a microstrip feed line configured to maintain a 50 ohm characteristic impedance. 17. The communication device of claim 10, wherein the portion of the second body defines an artificial ground; and first body has a feed line that is configured to maintain a 50 ohm characteristic impedance that extends from a first side of the ring monopole, the ring monopole having a second side and a third side connected to the first side and a fourth side connected to the third side and the second side to define a central opening; andeach of the resonators defining a central opening, each of the resonators having a first side, a second side that extends linearly from the first side, a third side that extends linearly from the second side, a fourth side that extends linearly from the second side to a fifth side, the fifth side extending linearly from the fourth side to a sixth side, the sixth side extending linearly from the fifth side to the first side, the fourth side being opposite and parallel to the first side, the first side having a notch defined therein and the fourth side having a notch defined therein, the notch of the first side and the notch of the fourth side being in communication with the central opening. 18. A communication system comprising: a communication device having an antenna that is communicatively connectable to at least one of a node and a computer device via a radio link established via the antenna of the communication device, the antenna comprising: a first body having a ring monopole;a second body positioned below the first body, the second body having a plurality of ring resonators; anda spacer positioned between the first body and the second body;wherein the resonators are arranged and configured to generate a 180° phase difference between polarized waves so that a radiated wave from the ring monopole and a reflected wave from a portion of the second body have orthogonal polarizations and a 90° phase difference to form a circularly polarized radiated wave. 19. The communication system of claim 18, wherein the portion of the second body defines an artificial ground and the first body includes a microstrip feed line configured to maintain a 50 ohm characteristic impedance first body has a feed line that is configured to maintain a 50 ohm characteristic impedance that extends from a first side of the ring monopole, the ring monopole having a second side and a third side connected to the first side and a fourth side connected to the third side and the second side to define a central opening; andeach of the resonators defining a central opening, each of the resonators having a first side, a second side that extends linearly from the first side, a third side that extends linearly from the second side, a fourth side that extends linearly from the second side to a fifth side, the fifth side extending linearly from the fourth side to a sixth side, the sixth side extending linearly from the fifth side to the first side, the fourth side being opposite and parallel to the first side, the first side having a notch defined therein and the fourth side having a notch defined therein, the notch of the first side and the notch of the fourth side being in communication with the central opening. 20. The communication system of claim 19, wherein the ring resonators are backed by a metallic sheet and the artificial ground is an anisotropic artificial ground.
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이 특허에 인용된 특허 (7)
Werner, Douglas H.; Lier, Erik; Martin, Bonnie G.; Turpin, Jeremiah P.; Wu, Qi, Anisotropic metamaterial gain-enhancing lens for antenna applications.
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