Lemniscate antenna element
First Claim
Patent Images
1. An antenna element, comprising:
- (a) two conducting loops, with perimeters of approximately one wavelength of operation, disposed in approximately the same plane from a common proximal point, such that the distance from said proximal point to any point on said conducting loops is approximately equal to the expression
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Abstract
An antenna element is disclosed that is a pair of approximately coplanar loops, having perimeters of approximately one wavelength, that are connected at one point. The loops are positioned so that a line through center of one loop and that common point also is the line through the center of the other loop. The approximate shape of these loops is such that the distance from that common point to any point on either loop is proportional to the cosine, raised to some power, of a multiple of the angle between that center line and a line between the common point and the point on the loop. Compared to previous antenna elements constructed for the same purposes, antennas constructed with such loops can yield more directivity, particularly in the principal H plane, without producing large minor lobes of radiation. Several applications of such antenna elements in various arrays also are disclosed.
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Citations
50 Claims
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1. An antenna element, comprising:
(a) two conducting loops, with perimeters of approximately one wavelength of operation, disposed in approximately the same plane from a common proximal point, such that the distance from said proximal point to any point on said conducting loops is approximately equal to the expression - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. An antenna element comprising four conducting loops, with perimeters of approximately one wavelength of operation, such that:
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(a) a first point of origin and a second point of origin are disposed on opposite sides of the proximal point;
b) said points of origin are approximately aligned in the direction of the desired maximum of transmitting or receiving ability and are separated by a distance much smaller than one wavelength of operation;
(c) said conducting loops are disposed approximately in a plane perpendicular to an imaginary line between s aid points of origin;
(d) the distance from said proximal point to any point on said conducting loops is approximately equal to the expression
r=h|cos(mθ
)|Pwherein r is said distance from said proximal point to any point on any one of said conducting loops, h is the distance from said proximal point to the distal point on a first one of said conducting loops, p is a non-negative number, m is a positive number greater than one, and θ
is the angle in said plane between an imaginary line from said proximal point to any point on said conducting loops and an imaginary line from said proximal point to said distal point on said first one of said conducting loops;
(e) said first one of said conducting loops begins at said first point of origin and ends at said second point of origin and is such that θ
has values between −
π
/2m and π
/2m radians;
(f) a second one of said conducting loops begins at said second point of origin and ends at said first point of origin and is such that θ
has values between −
π
/2m and π
/2m radians;
(g) a third one of said conducting loops begins at said first point of origin and ends at said second point of origin and is such that θ
has values between (π
−
π
/2m) and (π
+π
/2m) radians;
(h) a fourth one of said conducting loops begins at said second point of origin and ends at said first point of origin and is such that θ
has values between (π
−
π
/2m) and (π
+π
/2m) radians;
(i) except perhaps at said points of origin, said conducting loops do not touch each other; and
(j) there is a means for connecting the associated electronic equipment effectively in series with said conducting loops, effectively at either one of said points of origin, so that current maxima are present approximately at the distal points and approximately at said points of origin on said conducting loops, and single current minimal are present on said conducting loops between said current maxima.
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17. An antenna system comprising at least one antenna, each of said antennas comprising two antenna elements, such that:
(a) in each of said antenna elements, there are two conducting loops, with perimeters of approximately one wavelength of operation, disposed in approximately the same plane from a common proximal point, such that the distance from said proximal point to any point on said conducting loops is approximately equal to the expression - View Dependent Claims (18, 19, 20, 21, 22, 23)
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24. An antenna system comprising at least one antenna, each of said antennas comprising at least one antenna element, such that:
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(a) in each of said antenna elements, there are two conducting loops, with perimeters of approximately one wavelength of operation, disposed in approximately the same plane from a common proximal point, such that the distance from said proximal point to any point on said conducting loops is approximately equal to the expression
r=h |cos(mθ
)|Pwherein θ
is the angle in said plane between an imaginary line from said proximal point to any point on said conducting loops and an imaginary line from said proximal point to the distal point on a first one of said conducting loops,θ
has values between −
π
/2m and π
/2m radians for said first one of said conducting loops,θ
has values between (π
−
π
/2m) and (π
−
π
/2m) radians for the remaining second one of said conducting loops,m is a positive number greater than one, p is a non-negative number, h is the distance from said proximal point to said distal point on said first one of said conducting loops, and r is said distance from said proximal point to any point on said conducting loops;
(b) said antenna elements, within each of said antennas, are disposed in planes approximately parallel to each other;
(c) said antenna elements, within each of said antennas, are disposed so that their principal H planes are approximately parallel to each other; and
(d) means is provided to connect the associated electronic equipment effectively in series with each of said two conducting loops, and effectively at said proximal points, of at least one of said antenna elements in each of said antennas, so that current maxima are present approximately at said distal points and approximately at said proximal points on said conducting loops, and single current minima are present on said conducting loops between said current maxima. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50)
(a) said antenna elements, of all of said antennas, are disposed so that their principal H planes are approximately parallel to each other; and
(b) said antennas are approximately aligned both in the direction of said planes of said antenna elements and in the direction perpendicular to said principal H planes.
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29. The antenna system of claim 27 wherein:
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(a) said antenna elements, of all of said antennas, are disposed so that their principal H planes are approximately parallel to each other; and
(b) said antennas are approximately aligned both in the direction of said planes of said antenna elements and in the direction parallel to said principal H planes.
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30. The antenna system of claim 27 wherein:
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(a) said antenna elements, of all of said antennas, are disposed so that their principal H planes are approximately parallel to each other; and
(b) said antennas are approximately aligned both in the direction of said planes of said antenna elements and both in the direction parallel and in the direction perpendicular to said principal H planes, thereby producing a rectangular antenna system.
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31. The antenna system of claim 27 wherein the relative amplitude and phase of the currents in said antennas and the distances between said antennas are chosen to maximize the transmitting and receiving ability to the front of said antenna system.
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32. The antenna system of claim 27 wherein the relative amplitude and phase of the currents in said antennas and the distances between said antennas are chosen to minimize the transmitting and receiving ability in directions other than to the front of said antenna system.
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33. The antenna system of claim 27 wherein the relative amplitude and phase of the currents in said antennas and the distances between said antennas are chosen to produce a beneficial compromise between maximizing the transmitting and receiving ability to the front of said antenna system and minimizing said transmitting and receiving ability in other directions.
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34. The antenna system of claim 24 wherein there is only one of said antenna elements in each of said antennas.
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35. The antenna system of claim 24 wherein:
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(a) there is more than one of said antenna elements in each of said antennas; and
(b) the proximal points of said antenna elements, within each of said antennas, are approximately aligned in the direction perpendicular to said planes of said antenna elements.
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36. The antenna system of claim 35 wherein in each of said antennas:
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(a) there are just two of said antenna elements, with substantially equal dimensions;
(b) both of said antenna elements are connected to said associated electronic equipment; and
(c) said means of connection to said associated electronic equipment also is such that the currents in corresponding conductors of said two antenna elements are approximately equal in amplitude and approximately 180 degrees out of phase with each other.
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37. The antenna system of claim 35 wherein in each of said antennas:
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(a) there are just two of said antenna elements, with substantially equal dimensions;
(b) both of said antenna elements are connected to said associated electronic equipment;
(c) said means of connection to said associated electronic equipment also is such that the currents in corresponding conductors of said two antenna elements are approximately equal in amplitude; and
(d) the distance between said antenna elements and the phase difference between said currents in said corresponding conductors are such that the radiation is minimized in one of the two directions perpendicular to said planes of said antenna elements.
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38. The antenna system of claim 37 wherein in each of said antennas:
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(a) the distance between said antenna elements is approximately a free-space quarter wavelength of operation; and
(b) the phase difference between said currents in said corresponding conductors is approximately a consistent 90 degrees.
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39. The antenna system of claim 35 wherein in each of said antennas:
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(a) there are just two antenna elements in each of said antennas;
(b) only the rear antenna elements are connected to said associated electronic equipment; and
(c) the dimensions of said antenna elements and the distances between said antenna elements are such that the transmitting and receiving ability is substantially unidirectional to the front of said antenna system.
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40. The antenna system of claim 35 wherein:
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(a) there is an even number of said antennas in said antenna system; and
(b) said antennas are substantially the same as each other in the dimensions of their antenna elements and the distances between their antenna elements.
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41. The antenna system of claim 40 wherein:
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(a) a first half of said antennas has its principal H planes oriented approximately perpendicular to the principal H planes of the remaining second half of said antennas;
(b) said antennas are disposed in pairs, each of said pairs comprising said antennas having principal H planes of the two orientations;
(c) said antennas also are disposed so that said proximal points of the corresponding antenna elements, in each of said pairs, are much closer to each other than the length of a wavelength of operation; and
(d) said means of connection to said associated electronic equipment also is such that the currents in the conductors of said first half of said antennas are approximately equal in amplitude and consistently out of phase by approximately 90 degrees to the currents in corresponding conductors of said second half of said antennas, thereby producing an approximately circularly polarized antenna system.
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42. The antenna system of claim 40 wherein:
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(a) a first half of said antennas has principal H planes that are oriented approximately perpendicular to the principal H planes of the remaining second half of said antennas;
(b) said antennas are disposed in pairs, each of said pairs comprising said antennas having principal H planes of the two orientations;
(c) said proximal points of said antenna elements, in both of said antennas in each of said pairs, are approximately aligned with each other;
(d) said means of connection to said associated electronic equipment also is such that the currents in corresponding conductors, in each of said pairs, are approximately equal in amplitude; and
(e) the perpendicular distances between said planes of the corresponding antenna elements, in each of said pairs of said antennas, and the phase relationship between the corresponding currents, in each of said pairs of antennas, are such that approximately circularly polarized radiation is produced to the front of said antenna system.
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43. The antenna system of claim 35 wherein:
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(a) only the second antenna element from the rear of each of said antennas is connected to said associated electronic equipment; and
(b) in each of said antennas, the dimensions of said antenna elements and the distances between said antenna elements are such that the transmitting and receiving ability is substantially unidirectional to the front of said antenna system.
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44. The antenna system of claim 43 wherein the dimensions of said antenna elements and the distances between said antenna elements produce the maximum transmitting and receiving ability in the direction to the front of said antenna system.
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45. The antenna system of claim 43 wherein the dimensions of said antenna elements and the distances between said antenna elements produce the minimum transmitting and receiving ability in directions other than in the direction to the front of said antenna system.
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46. The antenna system of claim 43 wherein the dimensions of said antenna elements and the distances between said antenna elements produce a beneficial compromise between maximizing the transmitting and receiving ability in the direction to the front of said antenna system and minimizing said transmitting and receiving ability in other directions.
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47. The antenna system of claim 35 wherein:
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(a) the resonant frequencies of said antenna elements are progressively and proportionally higher from the rear to the front of each of said antennas;
(b) the distances between said antenna elements are progressively and proportionally shorter from the rear to the front of each of said antennas;
(c) within each of said antennas, the ratio of said resonant frequencies of all the adjacent antenna elements and the ratio of all the adjacent distances between said antenna elements are approximately equal ratios;
(d) within each of said antennas, all of said antenna elements are connected to each other, effectively at said proximal points, so that the phase relationship produced by the time taken for the energy to travel between said antenna elements, by that connection, is substantially equal to the phase relationship that is consistent with travel at the speed of light;
(e) said connection between said antenna elements also produces, in addition to the phase difference caused by the travelling time of the energy, an additional phase reversal between said adjacent antenna elements; and
(f) the antenna elements at the front of each of said antennas are connected to said associated electronic equipment.
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48. The antenna system of claim 47 wherein the differences in said resonant frequencies are caused by all the dimensions of said antenna elements approximately being proportionally different.
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49. The antenna system of claim 47 wherein:
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(a) the heights of each of said antenna elements are all approximately equal; and
(b) the differences in said resonant frequencies are caused by the widths of said antenna elements being different.
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50. The antenna system of claim 47 wherein the method of producing said proportional resonant frequencies is a compromise between having all the dimensions of said antenna elements proportional to each other and having equal heights in each of said antenna elements.
Specification
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Current AssigneeRobert Morton
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Original AssigneeJames Stanley Podger
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InventorsPodger, James Stanley
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Primary Examiner(s)Wong, Don
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Assistant Examiner(s)VANNUCCI, JAMES
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Application NumberUS09/583,569Time in Patent Office398 DaysField of Search343/867, 343/866, 343/731, 343/732, 343/737, 343/741, 343/797US Class Current343/867CPC Class CodesH01Q 11/10 Logperiodic antennas H01Q11...H01Q 11/12 Resonant antennasH01Q 19/10 using reflecting surfacesH01Q 19/104 using a substantially flat ...H01Q 21/061 Two dimensional planar arraysH01Q 21/08 the units being spaced alon...
