Multi-band antenna
First Claim
1. An apparatus that facilitates wireless communications, comprising:
- an antenna that receives or transmits multiple frequency bands of radio communication signals via dual transceiver microstrips having dipoles electrically coupled thereto, the dual transceiver microstrips affixed to respective sides of a common substrate within the antenna, wherein the dipoles are attached to both sides of the respective microstrips and arranged asymmetrically along a longitudinal axis of the respective microstrips, the antenna comprising;
a first microstrip for transmitting or receiving a first frequency band;
a second microstrip for transmitting or receiving a second frequency band;
at least one first component of a first type dipole element electrically coupled to a first side of the first microstrip;
at least one first component of a second type dipole element electrically coupled to the first side of the first microstrip;
at least one second component of the first type dipole element electrically coupled to a first side of the second microstrip; and
at least one second component of the second type dipole element electrically coupled to the first side of the second microstrip;
whereinthe first and second components of the first type dipole elements are arranged to form a first dipole that transmits or receives the first frequency band when a radio frequency signal is applied to the first and second microstrips or is received over the air; and
the first and second components of the second type dipole elements are arranged to form a second dipole that transmits or receives the second frequency band when a radio frequency signal is applied to the first and second microstrips or is received over the air.
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Accused Products
Abstract
A multi-band antenna for use in a wireless communications network provides frequency support for different wireless technologies in a single structure. This substantially reduces installation costs and can be the only solution in limited space installation sites. In one instance, the multi-band antenna has two serial feedlines carrying respective anode and cathode components of RF signals. Each, comprising serial feedline is coupled to two or more different length dipole elements. Each dipole element of a given length attached to the first serial feedline has a corresponding dipole element of approximately equal length attached to the second serial feedline and oriented, with respect to the first dipole element so as to form a dipole. Thus, at least two dipoles of differing lengths are formed, enabling performance in two different bands by the antenna. The gain of the antenna for any particular band is determined by the number of dipoles corresponding to that band contained within the antenna.
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Citations
16 Claims
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1. An apparatus that facilitates wireless communications, comprising:
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an antenna that receives or transmits multiple frequency bands of radio communication signals via dual transceiver microstrips having dipoles electrically coupled thereto, the dual transceiver microstrips affixed to respective sides of a common substrate within the antenna, wherein the dipoles are attached to both sides of the respective microstrips and arranged asymmetrically along a longitudinal axis of the respective microstrips, the antenna comprising; a first microstrip for transmitting or receiving a first frequency band; a second microstrip for transmitting or receiving a second frequency band; at least one first component of a first type dipole element electrically coupled to a first side of the first microstrip; at least one first component of a second type dipole element electrically coupled to the first side of the first microstrip; at least one second component of the first type dipole element electrically coupled to a first side of the second microstrip; and at least one second component of the second type dipole element electrically coupled to the first side of the second microstrip;
whereinthe first and second components of the first type dipole elements are arranged to form a first dipole that transmits or receives the first frequency band when a radio frequency signal is applied to the first and second microstrips or is received over the air; and the first and second components of the second type dipole elements are arranged to form a second dipole that transmits or receives the second frequency band when a radio frequency signal is applied to the first and second microstrips or is received over the air. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A multi-band antenna, comprising:
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a first electrically conductive material wherein the first electrically conductive material comprises first subcomponents of a first type dipole element and a second type dipole element; and a second electrically conductive material separated from the first electrically conductive material by a dielectric material wherein the second electrically conductive material comprises second subcomponents of the first type dipole element and the second type dipole element; wherein the first and second subcomponents of the first type dipole element are arranged to form the first type dipole element and the first and second subcomponents of the second type dipole element are arranged to form the second type dipole element; wherein the first subcomponents are formed on a first and second side of the first electrically conductive material such to be asymmetrical along a longitudinal axis of the first electrically conductive material; and wherein the second subcomponents are formed on a first and second side of the second electrically conductive material such to be asymmetrical along a longitudinal axis of the second electrically conductive material. - View Dependent Claims (13, 14)
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15. A method for fabricating a multi-band antenna, comprising:
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disposing a first electrically conductive material on a first side of a dielectric material; disposing a second electrically conductive material on an second side of the dielectric material; electrically coupling first subcomponents of a first type dipole element and a second type dipole element to a first side and a second side of the first electrically conductive material such to be asymmetrical along a longitudinal axis of the first electrically conductive material; and electrically coupling second subcomponents of the first type dipole element and the second type dipole element to a first side and a second side of the second electrically conductive material such to be asymmetrical along a longitudinal axis of the second electrically conductive material, wherein electrically coupling the first and second subcomponents comprises arranging the first and second subcomponents of the first type dipole to form the first type dipole element and arranging the first and second subcomponents of the second type dipole element to form the second type dipole element. - View Dependent Claims (16)
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Specification