Low visibility radio antenna with dual polarization
First Claim
1. A low-visibility, field-diverse antenna for providing communications, comprising:
- an antenna-supporting core having a width and a length; and
an antenna, said antenna wrapped upon said core in a manner for a selected resonant frequency, said antenna radiating in a diverse manner with horizontal and vertical field components of a field radiated by said antenna substantially in phase and not circularly polarized;
whereby the low-visibility, field-diverse antenna is realized having helical antenna characteristics without severe circular polarization radiation thereby promoting reliable communications.
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0 Petitions
Accused Products
Abstract
A low visibility, field-diverse antenna provides cross-polarized fields enhancing signal communications. A generally flat, but helical, antenna is achieved in conjunction with a core substrate about which the antenna is wrapped, wound, or fixed. The core substrate, pitch or angle of the helix, and length of the transmitting antenna are chosen for a specific resonant frequency. The length and width of the helix are chosen in order to dimension the helical antenna between its linear and circular polarization modes to thereby deliver field-diverse and cross-polarized transmission modes. In order to optimize the manufacturing process, holes may be created within the substrate. These holes are plated with conducting material so that conducting foil on opposite faces of the substrate may be electrically connected. The holes may be offset according to the pitch of the helix. Once the transmitting antenna has been fabricated upon the core substrate, the margin between the plated-through holes and the edge of the substrate may be separated by cutting, sawing, or stamping.
59 Citations
24 Claims
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1. A low-visibility, field-diverse antenna for providing communications, comprising:
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an antenna-supporting core having a width and a length; and
an antenna, said antenna wrapped upon said core in a manner for a selected resonant frequency, said antenna radiating in a diverse manner with horizontal and vertical field components of a field radiated by said antenna substantially in phase and not circularly polarized;
wherebythe low-visibility, field-diverse antenna is realized having helical antenna characteristics without severe circular polarization radiation thereby promoting reliable communications. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
a radome covering said core and said antenna.
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10. The low-visibility, field-diverse antenna of claim 9, wherein said radome comprises a dense plastic, said dense plastic changing the operating frequency of the antenna.
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11. The low-visibility, field-diverse antenna of claim 10, wherein said dense plastic has a dielectric constant of approximately 4.
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12. The low-visibility, field-diverse antenna of claim 11, wherein said dense plastic is acetyl.
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13. The low-visibility, field-diverse antenna of claim 9, wherein said radome is approximately three inches tall, said antenna is tuned for a center frequency of 460 MHz with a bandwidth of 20 MHz with a VSWR of 2.0:
- 1.
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14. The low-visibility, field-diverse antenna of claim 9, wherein said radome is approximately one and three-quarter inches (1¾
- ″
) tall, said antenna having a bandwidth of 70 MHz for at least one of the duplexed radio bands at 806-869 MHz, 824-896 MHz, and 890-960 MHz.
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15. The low-visibility, field-diverse antenna of claim 1, wherein the low-visibility, field-diverse antenna is one in a stack of similar antennas coupled by a phase-shift network creating an end-fed collinear antenna.
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16. A low-visibility, field-diverse antenna for providing communications, comprising:
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generally thin and approximately square antenna-supporting core comprising printed circuit board (PCB) substrate having a width and a length, said core conducting from one flat side to another via at least a portion of a plated-through hole in said core;
an antenna, said antenna comprising conducting foil fixed upon said core in a manner for a selected resonant frequency, said antenna radiating in a diverse manner with horizontal and vertical field components of a field radiated by said antenna are substantially in phase and not circularly polarized; and
a radome, said radome covering said core and said antenna, said radome comprising acetyl plastic, said radome having a dielectric constant of approximately 4 and changing the operating frequency of the antenna;
wherebythe low-visibility, field-diverse antenna is realized having helical antenna characteristics without severe circular polarization radiation thereby promoting reliable communications.
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17. A method for constructing a low-visibility, field-diverse antenna, the steps comprising:
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providing an antenna-supporting core;
providing a conductor;
fixing said conductor upon said core;
attaching said conductor to said core in a manner whereby a length of said conductor is engaged by said core in a manner for a selected resonant frequency, said conductor radiating in a diverse manner with horizontal and vertical field components of a field radiated by said conductor substantially in phase and not circularly polarized;
wherebythe low-visibility, field-diverse antenna is realized having helical antenna characteristics without severe circular polarization radiation thereby promoting reliable communications. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
providing an antenna-supporting core having plated-through holes whereby conduction can be made from one side of said antenna-supporting core to another.
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19. The method for constructing a low-visibility, field-diverse antenna of claim 18, wherein the step of attaching said conductor to said core further comprises:
attaching conducting foil on one side of said core connecting one plated-through hole with another.
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20. The method for constructing a low-visibility, field-diverse antenna of claim 19, wherein the step of providing an antenna-supporting core further comprises:
said plated-through holes are present on opposite sides of said core, said plated-through holes on one side of said core are offset with respect to said plated-through holes on the other side of said core to establish a pitch of said conducting foil attaching a plated-through hole on one side of said core with a plated-through hole on the other side of said core.
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21. The method for constructing a low-visibility, field-diverse antenna of claim 20, wherein said offset of said plated-through holes is selected to maintain resonance in conjunction with a length of said conductor.
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22. The method for constructing a low-visibility, field-diverse antenna of claim 21, wherein the step of providing an antenna-supporting core further comprises:
providing an antenna-supporting core having plated-through holes inside a perimeter margin.
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23. The method for constructing a low-visibility, field-diverse antenna of claim 22, the steps further comprising:
removing excess core material by removing said perimeter margin to create a minimally-sized antenna.
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24. The method for constructing a low-visibility, field-diverse antenna of claim 23, wherein said plated-through holes are approximately fifty-thousandths inch (0.050″
- ) in diameter.
Specification