Loop antenna with a parasitic radiator
First Claim
1. A loop antenna arrangement comprising:
- a first electrical terminal and a second electrical terminal, an electrical conductor forming an antenna loop having at least one electrically conductive path extending from the first electrical terminal to the second electrical terminal, and an electrically conductive parasitic radiator in the vicinity of the antenna loop, the distance between the antenna loop and the parasitic radiator being typically 0-20 mm, and advantageously 1-6 mm.
2 Assignments
0 Petitions
Accused Products
Abstract
It is an objective of the present invention to provide an antenna construction that allows the thickness of an antenna structure be lower than that of planar antennas according to prior art without sacrificing the radiation efficiency at the desired RF-bands as 900 MHz GSM and 1800 MHz/1900 MHz DCS/PCS. A further object of the invention is to provide an antenna construction that is insensitive to changes in positions of electrically conductive objects in the vicinity. The objectives of the invention are achieved by a loop antenna structure equipped with an electrically conductive parasitic radiator that is electro-magnetically coupled with the antenna loop. Performance at the DCS/PCS bands can be further improved by using an electrically conductive tuner element that provides a stronger electromagnetic coupling between the antenna loop and the parasitic radiator.
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Citations
19 Claims
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1. A loop antenna arrangement comprising:
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a first electrical terminal and a second electrical terminal, an electrical conductor forming an antenna loop having at least one electrically conductive path extending from the first electrical terminal to the second electrical terminal, and an electrically conductive parasitic radiator in the vicinity of the antenna loop, the distance between the antenna loop and the parasitic radiator being typically 0-20 mm, and advantageously 1-6 mm. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A loop antenna system comprising:
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a first electrical terminal and a second electrical terminal between which RF-signal is fed into the loop antenna system or received from the loop antenna system, an electrical conductor forming an antenna loop connected between the first electrical terminal and the second electrical terminal, the antenna loop emitting RF-electromagnetic radiation to surrounding space when RF-voltage is coupled between the first electrical terminal and the second electrical terminal, and the antenna loop forming RF-voltage between the first electrical terminal and the second electrical terminal when RF-electromagnetic radiation falls to the antenna loop, an electrically conductive parasitic radiator disposed to receive RF-electromagnetic energy from the antenna loop via an mutual electromagnetic coupling over an electrically insulating area, and to emit a part of the received electromagnetic energy in a form of RF-electromagnetic radiation to the surrounding space, and to capture RF-electromagnetic energy from RF-electromagnetic radiation falling to the electrically conductive parasitic radiator, and to transfer a part of the captured RF-electromagnetic energy to the antenna loop via the mutual electromagnetic coupling over an electrically insulating area. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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17. A mobile communication device comprising:
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a first electrical terminal and a second electrical terminal between which an RF-signal transmitted from the mobile communication device is fed and between which an RF-signal received at the mobile communication device is detected, an electrical conductor forming an antenna loop connected between the first electrical terminal and the second electrical terminal, the antenna loop emitting RF-electromagnetic radiation to surrounding space when RF-voltage is coupled between the first electrical terminal and the second electrical terminal, and the antenna loop forming RF-voltage between the first electrical terminal and the second electrical terminal when RF-electromagnetic radiation falls to the antenna loop, and an electrically conductive parasitic radiator disposed to receive RF-electromagnetic energy from the antenna loop via an mutual electromagnetic coupling over an electrically insulating area, and to emit a part of the received electromagnetic energy in a form of RF-electromagnetic radiation to the surrounding space, and to capture RF-electromagnetic energy from RF-electromagnetic radiation falling to the parasitic radiator, and to transfer a part of the captured RF-electromagnetic energy to the antenna loop via the mutual electromagnetic coupling over an electrically insulating area. - View Dependent Claims (18, 19)
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Specification