Antenna which can be operated in a number of frequency bands
First Claim
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1. An antenna for operation in a plurality of predetermined frequency bands, comprising:
- at least one first part which encloses an area; and
at least one second part which does not enclose an area;
wherein the at least one first part and the at least one second part are coupled together in series with one another, and wherein the at least one first part and the at least one second part are so configured and arranged that the antenna has at least two resonant frequencies within the plurality of predetermined frequency bands;
the at least one second part is in the form of a rod which is bent in a meandering shape in a plane.
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Abstract
An antenna which can be operated in a number of frequency bands and has at least one part which encloses an area and at least one part which does not enclose an area, with the at least two parts including a single conductor part being connected in series with one another, and the at least two parts interacting with one another in such a manner that the antenna has at least two resonant frequencies in a definable position, and with each at the same time having a wide bandwidth.
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Citations
9 Claims
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1. An antenna for operation in a plurality of predetermined frequency bands, comprising:
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at least one first part which encloses an area; and
at least one second part which does not enclose an area;
wherein the at least one first part and the at least one second part are coupled together in series with one another, and wherein the at least one first part and the at least one second part are so configured and arranged that the antenna has at least two resonant frequencies within the plurality of predetermined frequency bands;
the at least one second part is in the form of a rod which is bent in a meandering shape in a plane.
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2. An antenna for operation in a plurality of predetermined frequency bands, comprising:
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at least one first part which encloses an area; and
at least one second part which does not enclose an area;
wherein the at least one first part and the at least one second part are coupled together in series with one another, and wherein the at least one first part and the at least one second part are so configured and arranged that the antenna has at least two resonant frequencies within the plurality of predetermined frequency bands;
wherein the at least two resonant frequencies of the antenna are defined such that the antenna is operable in frequency bands of a plurality of mobile radio networks;
wherein the frequency bands of the plurality of mobile radio networks include those associated with the GSM, PCN and PCS standards;
wherein a resonant frequency of the antenna in the frequency band of the GSM standard is achieved primarily by the at least one first part, and a resonant frequency of the antenna in the frequency bands of the PCN and PCS standards is achieved primarily by the at least one second part. - View Dependent Claims (3)
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4. A multi-frequency band antenna for operation in a plurality of predetermined frequency bands, comprising:
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a first antenna element defining a three-dimensional shape; and
a second antenna element defining one of a linear shape and a two-dimensional shape, and electrically connected to the first antenna element in series;
the first and second antenna elements so configured and arranged to define at least two resonant frequencies within the plurality of predetermined frequency bands;
wherein a first resonant frequency of the at least two resonant frequencies is within a first frequency band of the plurality of predetermined frequency bands, and wherein a second resonant frequency of the at least two resonant frequencies is within second and third frequency bands of the plurality of predetermined frequency bands.
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5. A multi-frequency band antenna for operation in a plurality of predetermined frequency bands, comprising:
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a first antenna element defining a three-dimensional shape; and
a second antenna element defining one of a linear shape and a two-dimensional shape, and electrically connected to the first antenna element in series;
the first and second antenna elements so configured and arranged to define at least two resonant frequencies within the plurality of predetermined frequency bands;
wherein the second antenna element has a meandering shape.
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6. A multi-frequency band antenna for operation in a plurality of predetermined frequency bands, comprising:
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a first antenna element defining a three-dimensional shape; and
a second antenna element defining one of a linear shape and a two-dimensional shape, and electrically connected to the first antenna element in series;
the first and second antenna elements so configured and arranged to define at least two resonant frequencies within the plurality of predetermined frequency bands;
wherein the at least two resonant frequencies are defined such that the antenna is operable in frequency bands of a plurality of mobile radio networks;
wherein the frequency bands of the plurality of mobile radio networks comprise the GSM, PCN and PCS standards;
wherein a resonant frequency of the antenna of the frequency band in the GSM standard is achieved primarily by the first antenna element and a resonant frequency of the antenna in the frequency bands of the PCN and PCS standards is achieved primarily by the second antenna element.
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7. A method of making an antenna, comprising the steps of:
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providing a first antenna element having a three-dimensional shape in series with a meandering shaped second antenna element which does not have a three-dimensional shape; and
constructing the first and second antenna elements such that the antenna has at least two different predetermined resonant frequencies. - View Dependent Claims (8)
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9. A method of operating an antenna, comprising the steps of:
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a) providing first and second antenna elements connected together in series, providing the first antenna element with a three-dimensional shape, and providing the second antenna element with a meandering shape;
b) allowing the first and second antenna elements to cooperatively resonant within a first frequency band; and
c) allowing the first and second antenna elements to cooperatively resonant within a second frequency band different from the first frequency band.
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Specification