Multi-layered shielded substrate antenna
First Claim
1. A shielded substrate antenna for use in wireless communication devices, comprising:
- at least one non-conductive support substrate having a preselected thickness and length;
at least one conductive trace formed on said support substrate having a length and shape selected to act as an active radiator of electromagnetic energy at at least one preselected frequency;
a conductive enclosure spaced apart from and at least partially enclosing at least two sides of said conductive trace, wherein said conductive enclosure comprises at least two planar conductive shielding layers spaced apart from and on opposite sides of said conductive trace; and
a conductive pad coupled to a feed end of said trace, and a passage through at least one of said planar conductive shielding layers to allow interfacing with a spring type signal contact element.
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Accused Products
Abstract
A substrate antenna that includes conductive shielding positioned adjacent to and covering at least two, preferably opposing, sides of a conductive trace or antenna structure formed by the trace or traces, supported on a substrate. The conductive enclosure is realized by using a tubular material or planar conductive layers positioned adjacent to the trace. Preferably, shielding layers are disposed on at least two opposing sides of the trace. In one embodiment, a layer of dielectric material is formed over the antenna trace, and one shielding layer is formed on a surface of the substrate opposite that of the trace, and a second shielding layer is formed on the non-conductive material, effectively sandwiching the trace and substrate between them. In further embodiments, a conductive surface is formed between and joining together the two shielding layers, along either one or two sides of the trace or substrate. One method of forming this surface is to apply a planar layer of conductive material extending between and coupled to the first and second conductive shielding layers. Alternatively, a plurality of conductive vias are formed extending through the substrate between and coupled to the first and second conductive shielding layers. A passage is provided through or around an end of the shielding enclosure near a conductive pad to provide appropriate access with a signal feed for the antenna.
82 Citations
3 Claims
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1. A shielded substrate antenna for use in wireless communication devices, comprising:
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at least one non-conductive support substrate having a preselected thickness and length;
at least one conductive trace formed on said support substrate having a length and shape selected to act as an active radiator of electromagnetic energy at at least one preselected frequency;
a conductive enclosure spaced apart from and at least partially enclosing at least two sides of said conductive trace, wherein said conductive enclosure comprises at least two planar conductive shielding layers spaced apart from and on opposite sides of said conductive trace; and
a conductive pad coupled to a feed end of said trace, and a passage through at least one of said planar conductive shielding layers to allow interfacing with a spring type signal contact element.
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2. A shielded substrate antenna for use in wireless communication devices, comprising:
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at least one non-conductive support substrate having a preselected thickness and length;
at least one conductive trace formed on said support substrate having a length and shape selected to act as an active radiator of electromagnetic energy at at least one preselected frequency;
a conductive enclosure spaced apart from and at least partially enclosing at least two sides of said conductive trace; and
a conductive pad coupled to a feed end of said trace, for interfacing with a spring type signal contact element.
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3. A method of shielding a substrate antenna for use in wireless communication devices, having at least one non-conductive support substrate having a preselected thickness and length with at least one conductive trace formed thereon having a length and shape selected to act as an active radiator at at least one preselected frequency, comprising:
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positioning a conductive enclosure spaced apart from and at least partially enclosing two sides of said conductive trace; and
forming a conductive pad coupled to a feed end of said trace, for interfacing with a spring type signal contact element.
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Specification