Miniature sub-resonant multi-band VHF-UHF antenna
First Claim
1. An antenna providing a tunable range in a desired frequency band, comprising:
- an antenna element, said antenna element comprising;
a substrate made of a dielectric ceramic material containing at least strontium titanate, barium titanate and calcium titanate components;
a radiating structure disposed on said substrate, wherein said dielectric ceramic material provides dielectric loading of said radiating structure;
wherein said antenna element is intentionally loaded and tuned to a frequency significantly higher than said desired frequency band;
a variable reactance tuning circuit electrically coupled to said antenna element, said tuning circuit operative to lower the resonant frequency of said antenna element to a frequency within said desired frequency band.
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Accused Products
Abstract
A novel antenna system for receiving transmissions in the VHF and UHF frequency bands particularly suitable as a miniaturized antenna for UHF reception, such as of digital video broadcasting transmissions. The antenna system utilizes a combination of three techniques including (1) the use of dialect loading using a high dielectric constant ceramic substrate; (2) an antenna dielectrically loaded and tuned to a significantly higher frequency than desired; and (3) use of a tuning circuit to compensate for the frequency offset of the antenna thereby shifting the resonant frequency to cover the entire band. The antenna is intentionally designed to be too small to radiate at the frequency of interest. The antenna element is then ‘forced’ to be tuned to the desired lower frequency using passive (or active) reactive components as part of a tuning circuit. Multi-band operation is achieved by providing a bypass switch to connect the antenna element either to (1) a first receiver without the tuning circuit (i.e. high frequency tuning) or (2) a second receiver with the tuning circuit (i.e. low frequency tuning).
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Citations
44 Claims
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1. An antenna providing a tunable range in a desired frequency band, comprising:
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an antenna element, said antenna element comprising; a substrate made of a dielectric ceramic material containing at least strontium titanate, barium titanate and calcium titanate components; a radiating structure disposed on said substrate, wherein said dielectric ceramic material provides dielectric loading of said radiating structure; wherein said antenna element is intentionally loaded and tuned to a frequency significantly higher than said desired frequency band; a variable reactance tuning circuit electrically coupled to said antenna element, said tuning circuit operative to lower the resonant frequency of said antenna element to a frequency within said desired frequency band. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method of designing an antenna tunable over a desired frequency band, said method comprising:
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providing an antenna element comprising a radiating structure disposed on a substrate made of a dielectric material containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element operative to provide dielectric loading of said radiating structure, wherein said antenna element is intentionally loaded and tuned to a frequency significantly higher than said desired frequency band; compensating for said mistuned antenna element by providing a variable reactance tuning circuit electrically coupled to said antenna element to tune said antenna element to a frequency within said desired frequency band. - View Dependent Claims (17, 18, 19)
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20. A multi-band antenna, comprising:
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an antenna element comprising a radiating structure disposed on a substrate made of a dielectric material containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element providing dielectric loading of said radiating structure, wherein the antenna element is intentionally adapted to resonate at a first frequency in a high frequency band, said first frequency significantly higher than desired; a variable reactance tuning circuit electrically coupled to said antenna element, said tuning circuit operative to lower the resonant frequency of said antenna element to a second frequency in a low frequency band; and a switch electrically coupled to said antenna element and said tuning circuit, said switch operative to bypass said tuning circuit thereby permitting said antenna element to resonate at said first frequency in said high frequency band. - View Dependent Claims (21, 22, 23, 24, 25)
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26. A method of designing a multi-band antenna, said method comprising the steps of:
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providing an antenna element comprising a radiating structure disposed on a substrate made of a dielectric material containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element operative to provide dielectric loading of said radiating structure, wherein said antenna element is intentionally loaded and tuned to a frequency significantly higher than said desired frequency band; compensating for said mistuned antenna element by providing a variable reactance tuning circuit electrically coupled to said antenna element to lower the resonate frequency of said antenna element to a frequency in a low frequency band; and providing a switch electrically connected to said antenna element and said tuning circuit, said switch operative to bypass said tuning circuit thereby allowing said antenna element to resonate at said resonant frequency in said high frequency band. - View Dependent Claims (27, 28, 29, 30, 31)
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32. An antenna providing a tunable range in a desired frequency band, comprising:
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an antenna element comprising a radiating structure disposed on a substrate made of a dielectric material containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element providing dielectric loading of said radiating structure, wherein said antenna element is intentionally loaded and tuned such that its resonant frequency is at the upper end of said desired band of frequencies; and a variable reactance tuning circuit electrically coupled to said antenna element, said tuning circuit operative to lower the resonant frequency of said antenna element to a frequency lower than said resonant frequency.
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33. A mobile communications device, comprising:
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a transceiver operative to receive and transmit transmissions to and from a base station; a second radio operative to receive a signal in a desired frequency band from an antenna system electrically coupled thereto, said antenna system comprising; an antenna element comprising a radiating structure disposed on a substrate made of a dielectric material containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element providing dielectric loading of said radiating structure, wherein said antenna element is intentionally loaded and tuned such that its resonant frequency is substantially higher than said desired band of frequencies; a variable reactance tuning circuit electrically coupled to said antenna element, said tuning circuit operative to lower the resonant frequency of said antenna element to a frequency within said desired frequency band; and a processor operative to receive data from said second radio and to send and receive data to and from said transceiver. - View Dependent Claims (34, 35, 36, 37, 38)
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39. An antenna system, comprising:
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an antenna element having a radiating structure disposed on a dielectric material substrate containing at least strontium titanate, barium titanate and calcium titanate components, said antenna element intentionally loaded and tuned such that its resonant frequency is significantly higher than a desired frequency band, wherein the size of said antenna element is too small for it to radiate naturally in said desired frequency band; and a tuning circuit electrically coupled to said antenna element and operative to compensate for a frequency offset of said antenna element thereby shifting the resonant frequency of said antenna element to a desired lower frequency band. - View Dependent Claims (40, 41, 42, 43, 44)
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Specification