KR100859580B1 - Multi-band monopole antenna for mobile communication device - Google Patents

Abstract

Multiband unipolar antennas for mobile communication devices include a common conductor coupled to both the first and second radiation arms. The common conductor includes a feed port for coupling the antenna to the communication circuit of the mobile communication device. In one embodiment, the first radiation arm comprises a space-filling curve. In yet another embodiment, the first radiation arm comprises a meandering portion extending in the first direction from the common conductor and a continuous extended portion extending in the second direction from the meandering portion.

Mobile communication devices, multi-band monopole antennas, radiation arms, meandering, space-filling curves.

Description

MULTI-BAND MONOPOLE ANTENNA FOR MOBILE COMMUNICATION DEVICE}

The present invention relates generally to the field of multi-band monopole antennas. More specifically, multi-band monopole antennas are particularly suitable for use in mobile communication devices such as PDAs, cell phones, and pagers.

Multiband antenna structures for use in mobile communication devices are known in the art. For example, the type of antenna structure commonly used, such as internally mounted antennas for mobile communication devices, is known as an "inverted-F" antenna. When mounted in a mobile communication device, often the antenna is subjected to electromagnetic interference from metallic objects in the mobile communication device, in particular from the ground plane.

 Inverted-F antennas are known to operate suitably as internally mounted antennas, compared to other known antenna structures. However, inverted-F antennas are typically band limited and may not be suitable for bandwidth intensive applications.

Multiband unipolar antennas for mobile communication devices include a common conductor coupled to both the first and second radiation arms. The common conductor includes a feed port for coupling the antenna to the communication circuit of the mobile communication device. In one embodiment, the first radiation arm comprises a space-filling curve. In yet another embodiment, the first radiation arm comprises a meandering portion extending in the first direction from the common conductor and a continuous extended portion extending in the second direction from the meandering portion.

A mobile communication device having a multi band unipolar antenna includes a circuit board, a communication circuit, and a multi band unipolar antenna. The circuit board includes an antenna feeding point and a ground plane. The multi-band monopole antenna includes a common conductor, a first radiation arm and a second radiation arm. The common conductor includes a feeding port coupled to the antenna feed point of the circuit board. The first radiation arm is coupled to a common conductor and includes a space-filling curve. The second radiation arm is coupled to the common conductor. In one embodiment, the circuit board is mounted on the first plane in the mobile communication device and the multi-band monopole antenna is mounted on the second plane in the mobile communication device.

The description of the detailed description discloses the invention using embodiments, including the best mode, and allows one skilled in the art to practice the invention. The patentable scope of the invention is defined by the claims, and includes other embodiments that occur to those skilled in the art.

Referring to FIG. 1, FIG. 1 is a plan view of an exemplary multi-band monopole antenna 10 for a mobile handheld device. The multi-band monopole antenna 10 has a first radiating arm 12 and a second radiating arm 14 which are both coupled to a feeding port 17 via a common conductor 16. Include. In addition, the antenna 10 includes a substrate material 18 and is formed on the antenna structure 12 on a substrate material 18 such as a dielectric substrate, a flex-film substrate, or another type of suitable substrate material. , 14, 16) are fabricated. Preferably, antenna structures 12, 14, 16 are patterned with a conductive material, such as a metallic thick film paste that is printed and cured onto substrate material 18, or other known manufacturing techniques. It may also be prepared using.

The first radiation arm 12 includes a meandering section 20 and an extended section 22. The meandering portion 20 is coupled to the common conductor 16 and extends from the common conductor 16. The extended portion 22 is continuous with the meandering portion 20 and extends from the end of the meandering portion 20 toward the common conductor 16. In the illustrated embodiment, the meandering portion 20 of the first radiation arm 12 is formed in a geometric shape known as a space-filling curve to reduce the size of the entire antenna 10. The space-filling curve has at least 10 segments joined in such a way that each segment forms an angle with an adjacent segment, ie no pair of adjacent segments defines a larger straight segment. There is a characteristic. However, the meandering portion 20 may include other space-filling curves than those shown in FIG. 1, or, optionally, may be arranged in alternative meandering forms. For example, FIGS. 2-6 illustrate an antenna structure having a meandering portion formed from several alternative forms. The use of a shape-filling curve to form the antenna structure is described in more detail in co-owned PCT application publication number WO 2001/54225 (named "Space-Filling Miniature Antennas"). Which is incorporated herein by reference.

The second radiation arm 14 comprises three straight portions. As shown in FIG. 1, the first straight portion extends from the common conductor 16 in the vertical direction. The second straight portion extends in the horizontal direction from the end of the first straight portion toward the first radiation arm. The third straight portion extends in the vertical direction from the end of the second straight portion in the same direction as the first straight portion, and is adjacent to the meandering portion 20 of the first radiation arm 14.

As described above, the common conductor 16 of the antenna 10 couples the feed port 17 to the first and second radiation arms 12, 14. The common conductor 16 extends horizontally (shown in FIG. 1) beyond the second radiation arm 14 and is shown in FIG. 10 to couple the feed port 17 with the communication circuitry of the mobile communication device. As described above, the common conductor 16 can be folded in the vertical direction (the direction perpendicular to the page plane).

Optionally, the first and second radiation arms 12, 14 are each tuned to different frequency bands to provide a dual band antenna. The antenna 10 may be tuned to the desired dual band operating frequency of the mobile communication device by preselecting the total length of the conductors of each radiation arm 12, 14. For example, in the illustrated embodiment, the first radiation arm 12 has a lower frequency band, i.e., PDC (800 MHz), CDMA (800 MHz), GSM (850 MHz), GSM (900 MHz), GPS, or other desired frequency bands. It can be tuned to operate in the same group of bands. Similarly, the second radiation arm 14 has a higher frequency band: GPS, PDC (1500 MHz), GSM (1800 MHz), Korean PCS, CDMA / PCS (1900 MHz), CDMA2000 / UMTS, IEEE 802.11 (2.4 GHz), Or may be tuned to operate in a group of bands, such as another desired frequency band. Note that in some embodiments, the lower frequency band of the first radiation arm 12 may overlap with the higher frequency band of the second radiation arm 14 to provide a single wider band. Also, recognize that the multiband antenna 10 can be extended to include additional frequency bands by adding additional radiation arms. For example, a third radiation arm may be added to the antenna 10 to form a tri-band antenna.

2 is a top view of an exemplary multi-band monopole antenna 30 that includes one alternative space-filling form. The antenna 30 shown in FIG. 2 is similar to the multi-band antenna 10 shown in FIG. 1, but the meandering portion 32 of the first radiation arm 12 has the meandering portion 20 shown in FIG. 1. The difference is that it includes a different space-filling curve).

3-9 illustrate several alternative multi-band monopole antenna configurations 50, 70, 80, 90, 93, 95, 97. Similar to the antennas 10 and 30 shown in FIGS. 1 and 2, the multi-band monopole antenna 50 illustrated in FIG. 3 is common coupled to the first radiation arm 54 and the second radiation arm 56. Conductor 52. The common conductor 52 includes a feed port 62 on a straight portion of the common conductor 52, the common conductor 52 being horizontally away from the radiation arms 54, 56 (FIG. 3). (As shown), the common conductor 52 can be folded in a vertical direction (perpendicular to the page plane) to couple the feed port 62 to the communication circuit in the mobile communication device.

The first radiation arm 54 includes a meandering portion 58 and an extended portion 60. The meandering portion 58 is coupled to the common conductor 52 and extends from the common conductor 52. The extended portion 60 is continuous with the meandering portion 58 and extends in an arcuate path from the end of the meandering portion 58 toward the common conductor 52.

The second radiation arm 56 includes three straight portions. As shown in FIG. 3, the first straight portion extends diagonally from the common conductor 52. The second straight portion extends horizontally from the end of the first straight portion toward the first radiation arm. The third straight portion extends perpendicularly from the second straight portion away from the common conductor 52 and is adjacent to the meandering portion 58 of the first radiation arm 54.

The multi-band monopole antennas 70, 80, 90 illustrated in FIGS. 4 through 6 are similar to the antenna 50 shown in FIG. 3, but each has a different patterned meandering portion in the first radiation arm 54. The difference is that it includes (72, 82, 92). For example, the meandering portion 92 of the multi-band antenna 90 shown in FIG. 6 satisfies the definition of the space-filling curve as described above. In addition, each meandering portion 58, 72, 82 illustrated in Figs. 3 to 5 includes differently shaped periodic curves that do not satisfy the requirements of the space-filling curve.

The multiband unipolar antennas 93, 95, 97 illustrated in FIGS. 7-9 are similar to the antenna 30 shown in FIG. 2, but in each of FIGS. 7-9, the instance of the first radiation arm 12 is illustrated. The difference is that the tented portion 22 includes additional regions 94, 96, 98. In FIG. 7, the extended portion 22 of the first radiation arm 12 includes a polygonal portion 94. 8 and 9, the extended portion 22 of the first radiation arm 12 includes portions 96 and 98 having longitudinal arcuate edges.

10 is a plan view 100 of an exemplary multi-band monopole antenna 10 coupled to a circuit board 102 of a mobile communication device. The circuit board 102 includes a feeding point 104 and a ground plane 106. For example, the ground plane 106 may be located on one of the surfaces of the circuit board 102 or may be one layer of a circuit board printed in multiple layers. For example, feed point 104 may be a metallic bond pad coupled to a circuit trace 105 over one or more layers of circuit board 102. Also illustrated is a communication circuit 108 coupled to the feed point 104. For example, communication circuitry 108 may be a multi-band transceiver circuit coupled to feed point 104 via circuit trace 205 on a circuit board.

To reduce electromagnetic interference from the ground plane 106, the antenna 10 is such that the antenna protrusion above the plane of the circuit board 102 does not intersect the metalization of the ground plane 106 by more than 50 percent. It is mounted in a mobile communication device. In the illustrated embodiment 100, the antenna 10 is mounted above the circuit board 102. That is, the circuit board 102 is mounted on the first plane, and the antenna 10 is mounted on the second plane in the mobile communication device. In addition, the antenna is laterally offset from the edge of the circuit board 102 such that in embodiments 100, the antenna protrusion above the plane of the circuit board 102 may be metallized in the ground plane 106. None of the cross).

To further reduce electromagnetic interference from the ground plane 106, the feed point 104 is located at a location on the circuit board 102 adjacent to the corner of the ground plane 106. Preferably, the antenna 10 is coupled to the feed point 104 by folding a portion of the common conductor 16 vertically towards the plane of the circuit board 102, and the feed port 17 of the antenna 10. Is coupled to the feed point 104 of the circuit board 102. For example, the feed port 17 of the antenna 10 may directly couple the feed port 17 to the feed point 104 using a commercially available connector, or engage the feed point 104 by other suitable coupling means. Can be. However, in other embodiments, the feed port 17 of the antenna 10 may be coupled to the feed point 104 by means other than folding the common conductor 16.

11 illustrates an example mounting structure 111 for securing a multi band monopole antenna 112 in a mobile communication device. The illustrated embodiment 110 employs a multi-band monopole antenna 112 having a meandering portion as shown in FIG. However, be aware that alternative multi-band monopole antenna configurations may also be used, as described in Figures 1-9.

Mounting structure 111 includes a flat surface 113 and one or more protrusions 114. The antenna 112 is fixed at the flat surface 113 of the mounting structure 111, preferably using an adhesive material. For example, antenna 112 may be fabricated on a flexible film substrate having a pell-type adhesive on the opposite surface of the antenna structure. Once the antenna 112 is secured to the mounting structure 111, the mounting structure 111 is positioned in the mobile communication device with a protrusion 114 extending over the circuit board. The mounting structure 111 and the antenna 112 are secured to the housing of the circuit board and the mobile communication device using one or more holes 116, 117 in the mounting structure 111.

12 is an exploded view of an exemplary clamshell-type cellular phone 120 having a multi-band monopole antenna 121. Mobile phone 120 includes a lower circuit board 122, an upper circuit board 124, and a multi-band antenna 121 secured to mounting structure 110. Also illustrated are upper and lower housings 128, 130 coupled to surround circuit boards 122, 124 and antenna 121. The illustrated multi-band monopole antenna 121 is similar to the multi-band antenna 30 shown in FIG. However, recognize that alternative antenna configurations as described above with reference to FIGS. 1-9 may be used.

The lower circuit board 122 is similar to the circuit board 102 described above with reference to FIG. 10 and includes a ground plane 106, a feed point 104, and a communication circuit 108. As described above with reference to FIGS. 10 and 11, the multi-band antenna 121 is fixed to the mounting structure 110 and coupled to the lower circuit board 122. The lower circuit board 122 is joined with the upper circuit board 124 using a hinge 126 so that the upper and lower circuit boards 122 and 124 can be folded together in a conventional manner of a clamshell type mobile phone. Can be. In order to further reduce electromagnetic interference from the lower and upper circuit boards 122 and 124, the antenna 121 is preferably mounted on the lower circuit board 122 adjacent to the hinge 126.

FIG. 13 is an exploded view of a candy bar type mobile phone 200 having a multi band monopole antenna 201. The cellular phone 200 includes a multi-band monopole antenna 201, a circuit board 214, and upper / lower housings 220, 222 fixed to the mounting structure 110. The circuit board 214 is similar to the circuit board 102 described above with reference to FIG. 10 and includes a ground plane 106, a feed point 104, and a communication circuit 108. The illustrated antenna 201 is similar to the multi band monopole antenna shown in FIG. 3. However, alternative antenna configurations as described above with reference to FIGS. 1-9 may be used.

The multiband antenna 201 is fixed to the mounting structure 110 and coupled to the circuit board 214 as described above with reference to FIGS. 10 and 11. Upper and lower housings 220, 222 are coupled to surround the antenna 212 and the circuit board 214.

14 is an exploded view of an exemplary PDA 230 having a multi band monopole antenna 231. The PDA 230 includes a multi-band monopole antenna 231, a circuit board 236, and upper / lower housings 242 and 244 fixed to the mounting structure 110. Although different in form, the PDA circuit board 236 is similar to the circuit board 102 described above with reference to FIG. 10 and includes a ground plane 106, a feed point 104, and a communication circuit 108. Exemplary antenna 231 is similar to the multi-band monopole antenna shown in FIG. However, alternative antenna configurations as described above with reference to FIGS. 1-9 may be used.

The multiband antenna 231 is fixed to the mounting structure 110 and coupled to the circuit board 214 as described above with reference to FIGS. 10 and 11. However, slightly different from FIG. 10, the PDA circuit board 236 defines an L-shaped slot along the edge of the circuit board 236, wherein the antenna 231 and the mounting structure 110 define the PDA. It is secured to the circuit board 236 to conserve space in 230. Upper and lower housings 242 and 244 are coupled to surround antenna 231 and circuit board 236.

1 is a plan view of an exemplary multi-band monopole antenna for a mobile communication device.

2 is a top view of an exemplary multi-band monopole antenna that includes one alternative space-filling structure.

3-9 illustrate various alternative multi-band monopole antenna configurations.

10 is a top view of the exemplary multi-band monopole antenna of FIG. 1 coupled to a circuit board for a mobile communication device.

11 illustrates an example mounting structure for securing a multi-band monopole antenna within a mobile communication device.

12 is an exploded view of an exemplary clamshell type mobile phone with a multi-band monopole antenna.

13 is an exploded view of an exemplary candy-bar style mobile phone with a multi-band monopole antenna.

14 is an exploded view of an exemplary PDA with a multi-band monopole antenna.

Claims (9)

A multi-band monopole antenna for a mobile communication device, A common cunductor having a feeding port for coupling the antenna to a circuit of the mobile communication device; A meandering section coupled to the common conductor and extending from the common conductor in a first direction and a continuous extended substantial straight portion extending from the meandering portion in a second direction a first radiating arm having a straight section, wherein the continuous extended substantial straight portion extends substantially opposite to the direction of the meandering portion; And A second radiation arm coupled to the common conductor, The second radiation arm,    A first linear portion extending in the vertical direction from the common conductor;    A second linear portion extending in a horizontal direction from the common conductor and extending horizontally from an end of the first linear portion toward the first radiation arm;    A third linear portion extending vertically from an end of the second linear portion in the same direction as the first linear portion and extending close to the meandering portion of the first radiation arm Multi band unipolar antenna comprising a As a mobile communication device, A circuit board having an antenna feed point and a ground plane; A communication circuit coupled to the antenna feed point of the circuit board; And Includes a multi-band unipolar antenna, The multi-band monopole antenna,    A common conductor having a feed port for coupling the antenna to a circuit of the mobile communication device;    A first radiation arm coupled to the common conductor and having a meandering portion extending from the common conductor in a first direction and a continuous extended substantial straight portion extending from the meandering portion in a second direction, The first extended arm extending substantially in a substantially opposite direction to the direction of the meandering portion; And    A second radiation arm coupled to the common conductor,    The second radiation arm,     A first linear portion extending in a vertical direction from the common conductor;     A second linear portion extending in a horizontal direction from the common conductor and extending horizontally from an end of the first linear portion toward the first radiation arm; And     A third linear portion extending vertically from an end of the second linear portion in the same direction as the first linear portion and extending close to the meandering portion of the first radiation arm A mobile communication device comprising a. A multi-band monopole antenna for a mobile communication device, A common conductor having a feed port for coupling the antenna to a circuit of the mobile communication device; A section comprising space-filling curve coupled to the common conductor and extending from the common conductor in a first direction and continuous extending from the space-filling curve inclusion in a second direction A first radiation arm having an extended substantially straight portion, wherein the continuous extended substantially straight portion extends substantially opposite to a direction of the space-filling curve containing portion; And A second radiation arm coupled to the common conductor, The second radiation arm,    A first linear portion extending in a vertical direction from the common conductor;    A second linear portion extending in a horizontal direction from the common conductor and extending horizontally from an end of the first linear portion toward the first radiation arm;    A third linear portion extending vertically from an end of the second linear portion in the same direction as the first linear portion and extending close to the space-filling curve containing portion of the first radiation arm; Multi band unipolar antenna comprising a As a mobile communication device, A circuit board having an antenna feed point and a ground plane; A communication circuit coupled to the antenna feed point of the circuit board; And Includes a multi-band unipolar antenna, The multi-band monopole antenna,    A common conductor having a feed port for coupling the antenna to a circuit of the mobile communication device;    A space-filling curve containing portion coupled to the common conductor and extending from the common conductor in a first direction and a continuous extended substantially straight line extending from the space-filling curve containing portion in a second direction A first radiation arm, wherein the continuous extended substantially straight portion extends substantially opposite to the direction of the space-filling curve containment portion; And    A second radiation arm coupled to the common conductor,    The second radiation arm,       A first linear portion extending in a vertical direction from the common conductor;      A second linear portion extending in a horizontal direction from the common conductor and extending horizontally from an end of the first linear portion toward the first radiation arm; And      A third linear portion extending vertically from an end of the second linear portion in the same direction as the first linear portion and extending close to the space-filling curve containing portion of the first radiation arm; A mobile communication device comprising a. As a mobile communication device, A circuit board having an antenna feed point and a ground plane; A communication circuit coupled to the antenna feed point of the circuit board; And Includes a multi-band unipolar antenna, The multi-band monopole antenna,    A common conductor having a feed port for coupling the antenna to a circuit of the mobile communication device;    A first radiation arm coupled to the common conductor; And    A second radiation arm coupled to the common conductor,    Wherein the projection of the antenna footprint on the plane of the circuit board does not intersect more than 50 percent with the metalization of the ground plane. 6. The mobile communication device according to claim 5, wherein the circuit board is mounted on the first plane. 6. The mobile communication device of claim 5 wherein the antenna is laterally offset from an edge of the ground plane.  6. The mobile communication device of claim 5, wherein the antenna feed point is located at a position proximate a corner of the ground plane. 6. The mobile communication device according to claim 5, wherein the antenna is fixed to a mounting structure, and the mounting structure is fixed to the housing or the circuit board of the mobile communication device using one or more holes.

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