A rectenna for high efficiency RF-to-DC wireless energy harvesting that includes an off-center-fed dipole antenna and a rectifying circuit, wherein the rectifying circuit comprises at least one rectifying diode. The input impedance of the antenna may be directly conjugate matched to the impedance of
A rectenna for high efficiency RF-to-DC wireless energy harvesting that includes an off-center-fed dipole antenna and a rectifying circuit, wherein the rectifying circuit comprises at least one rectifying diode. The input impedance of the antenna may be directly conjugate matched to the impedance of the rectifying circuit over a wide range of frequencies and/or under different operating conditions. The impedance matching network required by a conventional rectenna system may therefore be eliminated using the methods disclosed for the design and implementation of the rectenna. The rectenna offers consistently high RF-to-DC power conversion efficiency over a wide range of frequencies and under different operating conditions. The rectenna may be connectible to a rectifying circuit utilizing different types of rectifying diodes.
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1. An apparatus comprising: an antenna configured to receive a radio frequency signal, wherein the antenna comprises: a first off-center-fed dipole,a second off-center-fed dipole, anda center-fed dipole; anda rectifying circuit connected to the antenna and configured to convert alternating current p
1. An apparatus comprising: an antenna configured to receive a radio frequency signal, wherein the antenna comprises: a first off-center-fed dipole,a second off-center-fed dipole, anda center-fed dipole; anda rectifying circuit connected to the antenna and configured to convert alternating current power generated by the antenna to direct current power. 2. The apparatus of claim 1, wherein the first off-center-fed dipole, the second off-center-fed dipole, and the center-fed dipole each comprise: a first arm that extends radially from a first pole of the antenna; anda second arm that extends radially from a second pole of the antenna. 3. The apparatus of claim 2, further comprising a coplanar stripline having a first conducting strip connected to the first pole of the antenna and a second conducting strip connected to the second pole of the antenna. 4. The apparatus of claim 3, wherein: the center-fed dipole is arranged at a pitch angle of approximately 90 degrees to the coplanar stripline;the first off-center-fed dipole is arranged at a pitch angle of approximately 45 degrees to the coplanar stripline; andthe second off-center-fed dipole is arranged at a pitch angle of approximately 45 degrees to the coplanar stripline and a pitch angle of approximately 90 degrees to the first off-center-fed dipole. 5. The apparatus of claim 2, wherein the first arm and the second arm of each of the first off-center-fed dipole, the second off-center-fed dipole, and the center-fed dipole are narrower at ends connected to, and wider at ends distal from, the first pole and the second pole. 6. The apparatus of claim 2, wherein edges of the first arm and the second arm of each of the first off-center-fed dipole, the second off-center-fed dipole, and the center-fed dipole are formed by radial lines extending from the first pole and the second pole. 7. The apparatus of claim 1, further comprising a coplanar stripline, wherein each of the first off-center-fed dipole, the second off-center-fed dipole, and the center-fed dipole comprises a pair of arms, each arm formed as a sector on a surface of a substrate and connected to one of two conductive strips of the coplanar stripline. 8. The apparatus of claim 1, further comprising a coplanar stripline having a first conducting strip connected to one pole of the antenna and a second conducting strip connected to another pole of the antenna, wherein the rectifying circuit comprises a shunt rectifying diode connected between the first conducting strip and the second conducting strip. 9. The apparatus of claim 1, wherein the rectifying circuit comprises a shunt rectifying diode, wherein a reflection coefficient between the antenna and the shunt rectifying diode is less than −6 dB. 10. The apparatus of claim 1, wherein the apparatus is configured to have a range of operating frequencies including 0.9 GHz. 11. The apparatus of claim 1, wherein the apparatus is configured to have a range of operating frequencies including 1.8 GHz and 2.4 GHz. 12. An apparatus comprising: an off-center-fed dipole antenna comprising at least six dipole arms configured to receive radio-frequency signals; anda rectifying circuit configured to convert the radio-frequency signals received by the off-center-fed dipole antenna to direct current power, and wherein an impedance of the off-center-fed dipole antenna and an impedance of the rectifying circuit are conjugate matched to within a −6 dB reflection coefficient. 13. The apparatus of claim 12, wherein the at least six dipole arms are arranged as at least one symmetric dipole and at least two asymmetric dipoles. 14. The apparatus of claim 13, wherein the at least two asymmetric dipoles comprise: a first asymmetric dipole including a first arm and a second arm, wherein a length of the first arm is greater than twice a length of the second arm; anda second asymmetric dipole including a third arm and a fourth arm, wherein a length of the third arm is greater than twice a length of the fourth arm. 15. The apparatus of claim 12, wherein the apparatus is configured to have a first range of operating frequencies that is centered around a frequency of operation of about 0.9 GHz and a second range of operating frequencies between about 1.8 GHz to 2.4 GHz. 16. An apparatus comprising: an antenna comprising three or more dipoles including one or more symmetric dipoles and one or more asymmetric dipoles;a coplanar stripline comprising a first conducting strip and a second conducting strip; anda rectifying circuit connected to the three or more dipoles of the antenna via the coplanar stripline, wherein the rectifying circuit comprises a rectifying diode connected between the first conducting strip and the second conducting strip, and wherein an input impedance of the antenna is conjugate matched to an impedance of the rectifying diode such that a reflection coefficient between the antenna and the rectifying diode is less than −6 dB. 17. The apparatus of claim 16, wherein the one or more asymmetric dipoles each comprise a longer arm and a shorter arm, wherein the longer arm is greater than twice a length of a shorter arm. 18. The apparatus of claim 16, wherein the one or more asymmetric dipoles comprise arms formed as sectors having sector angles in a range of 30 degrees to less than 90 degrees. 19. The apparatus of claim 16, wherein the three or more dipoles comprise arms that extend radially from either the first conducting strip or the second conducting strip. 20. The apparatus of claim 19, wherein the arms are narrower at connections to the coplanar stripline and wider at ends distal from the coplanar stripline.
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