This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2014-016545, filed on Jan. 31, 2014, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to an omni-directional reception sensitivity three-axis antenna which is used in a receiving device of a keyless entry system for locking or unlocking a vehicle, etc.
2. Description of the Related Art
As an antenna for LF band, a bar antenna which consists of wire wound around a bar-type core winding axis is used. Such a bar antenna has a reception sensitivity in the direction of the winding axis and does not have that in directions orthogonal to the winding axis. Therefore, plural antenna coils mutually compensate for their respective area lacking reception sensitivity by arranging three antenna coils such that the respective winding axes orthogonally cross each other, an omni-directional antenna having omni-directional reception sensitivity is obtained.
In recent years, a small-sized three-axis antenna, having three coils wound orthogonally to each other around a single core, as shown in Japanese patent laid-open No. 2004-15168, is used widely.
The three-axis antenna 70 has omni-directional reception sensitivity due to the winding axes of the x axis coil 91, the y axis coil 92 and the z axis coil 93 being orthogonal to each other.
Although the above-mentioned prior art three-axis antenna is low-profiled, its thickness exceeds 3 mm. Thus, it may be incorporated in a key holder or the like, but not in a thin article like an IC card standardized at 85.6 mm width, 54.0 mm height and 0.76 mm thickness.
The present invention is characterized by the provision of:
a three-axis antenna having a first to a third antenna coils whose directions of a maximum reception sensitivity are orthogonal to each other,
wherein
the first to third antenna coils comprising respectively:
a planar coil which is wound around a winding axis in a
circumferential direction and has an aperture; and
a foil-type core inserted in the aperture of said coil;
the foil-type cores are arranged in a plane to be in parallel to the plane of the first through the third coils.
According to the three-axis antenna of the present invention, a three-axis antenna which can be incorporated in a thin article like an IC card, etc, may be obtained.
As shown in
The antenna coils 20a, 20b, 20c include, as shown in
The foil core 40 is made of a base material of a nonmagnetic material with a magnetic foil adhered thereto, is arranged to be roughly parallel with the plane and at about 90° from the winding axis N of the planar coil 30 so that the bottom surface at the one end of the foil core 40 contacts the top surface of the planar coil 30, and the top surface at the other end of the foil core 40 contacts the bottom surface of the planar coil 30.
Designating the longitudinal directions of the foil core 40 of the respective antenna coil 20a, 20b and 20c as the a axis, the b axis and the c axis, the a axis, the b axis and the c axis are arranged radially and cross at one point so that the axes make an angle of 120° with each other.
Hereunder, the omni-directionality of the three-axis antenna 10 and the conditions thereof will be the explained.
Conventional bar-type antennas wound around a bar-type core have a maximum reception sensitivity and generate maximum induced voltage in the longitudinal direction. On the contrary, in the antenna coils shown in
Here, the maximum reception sensitivity is the maximum induced voltage generated in an antenna coil when the antenna coil is located in the magnetic field of 1 μT.
The inclination angle θ, together with the maximum induced voltage Vmax, can be adjusted by varying the shape of the foil core 40, relative permeability μr, etc.,. Namely, the inclined angle θ will be smaller if the length L is longer, the sectional area is larger or the relative permeability is increased.
It will be understood from
supposing the longitudinal direction of the foil core of the antenna coil 20a is the a axis, the direction of the maximum reception sensitivity is the α axis, and the inclination angle is θ,
supposing the longitudinal direction of the foil core of the antenna coil 20b is the b axis, the direction of the maximum reception sensitivity is the β axis, and the inclination angle is θ,
supposing the longitudinal direction of the foil core of the antenna coil 20c is the c axis, the direction of the maximum reception sensitivity is the γ axis, and the inclination angle is θ, and
supposing the a axis is the x axis,
the angles between the a axis, the b axis and the c axis are 120° respectively and the axes cross each other at the point of origin o.
As shown in
As shown in
The thickness T (=t40+t30×2, shown in
In addition, such three-axis antenna 10, using the foil core and the thin planar coil, being different from conventional three-axis antennas that use brittle ferrite, which are expected to have moderate flexibility is ideal for incorporating it in IC cards, etc.
Besides, the inclined angle 35.26° is ideal in theory but the antenna coils have reception sensitivity even a slightly away from the maximum reception sensitivity direction. Therefore, even if there are differences in the inclined angle θ and the arrangement of the antenna coils, the areas of each not having reception sensitivity are mutually complimentary so that the antenna is omni-directional.
Not limited to a rectangular shape, the foil core can also be H-shaped.
As shown in
Thus, the maximum induced voltage and the inclined angle are adjustable and depend on the shape of the foil core. Also, the inductance value of the antenna coil 21 are increasing when compared to those of the antenna coil 20. Moreover, the maximum induced voltage is adjustable by the number of windings of the antenna coil 20.
Similar to a shape of a foil core, a planar coil is not limited to a circular shape, various shapes including elliptic and polygonal shapes.
An antenna coil is preferable to be thinner.
There are various ways of winding a planar coil where winding is started on the inside and ended on the outside. In a common way of winding, as the inner ending is pulled out to the outer periphery of the coil, the thickness of coil increases due to the pulled-out ending.
Since the distances among the foil cores of the antenna coils increase, the abovementioned arrangement is beneficial to prevent adverse coupling between the antenna coils which worsen performance.
The three-axis antenna 12 in
In the abovementioned embodiments, three antenna coils having the same shape and the same characteristic are arranged such that the longitudinal directions of their foil cores make an angle of 120°. Nevertheless, an omni-directional antenna may be realized using antenna coils of different characteristics.
In the case the three-axis antenna 10′ (not shown), comprising three antenna coils 20a′, 20b′ and 20c′ (not shown) which have different characteristics respectively, are arranged around the point of origin on the same x-y plane,
supposing the longitudinal direction of the foil core of the antenna coil 20a′ is the a axis, the direction of the maximum reception sensitivity is the α axis, and the angle between the a axis and the α axis is θ1,
supposing the longitudinal direction of the foil core of the antenna coil 20b′ is the b axis, the direction of the maximum reception sensitivity is the β axis, and the angle between the b axis and the β axis is θ2,
supposing the longitudinal direction of the foil core of the antenna coil 20c′ is the c axis, the direction of the maximum reception sensitivity is the γ axis, and the angle between the c axis and the γ axis is θ3, and
supposing the angle between the a axis and the b axis is φ1, the angle between the b axis and the c axis is φ2, the angle between the c axis and the a axis is φ3, and supposing that, for example, θ1=20.00°, θ2=28.02°, θ3=54.47°, and φ1=101.2°, φ2=138.2°, φ3=120.6°, the α axis, the β axis and the γ axis can be orthogonal to each other. As a result, an omni-directional antenna may be realized using three antenna coils having different shapes and different characteristics respectively. Here, φ1, φ2 and φ3 are, geometrically, larger than 90° and smaller than 180°.
As mentioned above, when the three planar antenna coils are arranged in the same plane, in the three-axis antenna according to the present invention the directions of the maximum reception sensitivities of the respective antenna coils may be caused to orthogonally cross by adjusting the inclination angles at the antenna coils and the arrangement thereof in the same plane, even if the longitudinal directions of the cores of the respective antenna coils do not orthogonally cross each other. Thus, a three-axis antenna having omni-directional reception sensitivity is made.
Number | Date | Country | Kind |
---|---|---|---|
2014-016545 | Jan 2014 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
6644555 | Berney | Nov 2003 | B1 |
6924767 | Kitahara | Aug 2005 | B2 |
7295168 | Saegusa | Nov 2007 | B2 |
8077106 | Sato | Dec 2011 | B2 |
8378912 | Nishino | Feb 2013 | B2 |
8451184 | Murakami | May 2013 | B2 |
8638268 | Yosui | Jan 2014 | B2 |
20030107523 | Yahata et al. | Jun 2003 | A1 |
20030222829 | Kitahara et al. | Dec 2003 | A1 |
20080074270 | Ashwood-Smith et al. | Mar 2008 | A1 |
20120176283 | Yosui et al. | Jul 2012 | A1 |
Number | Date | Country |
---|---|---|
601 23 087 | Apr 2007 | DE |
1 237 225 | Sep 2002 | EP |
2469209 | Oct 2010 | GB |
Entry |
---|
EP Search Report (Application No. 15152948.4) (9 pages—dated May 27, 2015). |
Number | Date | Country | |
---|---|---|---|
20150222016 A1 | Aug 2015 | US |