Communications: radio wave antennas – Antennas – Microstrip
Reexamination Certificate
2002-10-10
2004-03-30
Ho, Tan (Department: 2821)
Communications: radio wave antennas
Antennas
Microstrip
C343S815000, C343S846000
Reexamination Certificate
active
06714162
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to Planar Inverted F-Antenna (PIFA), and in particular, to a single feed dual or tri ISM band PIFA of narrow width having a compact ground plane.
BACKGROUND OF THE INVENTION
The world has witnessed a rapid progress in wireless communication. The emerging technology of short range radio links (such as the Bluetooth protocol or the like) and local area network system applications have caused a renewed focus on the industrial scientific medical (“ISM”) frequency band. Conventionally, ISM band RF data communication devices use external antenna. But these devices could use internal antenna to avoid protruding external antenna. Internal antennas have several advantages such as being less prone to external damage, a reduction in overall size of the handset, and increased portability.
Among the various choices for internal antennas, the planer inverted F-antenna (“PIFA”) appears to have great promise. Relative to other internal antennas, the PIFA is generally lightweight, easy to adapt and integrate into a device chassis, has moderate range of bandwidth, has omni directional radiation patterns in orthogonal principal planes for vertical polarization, versatile for optimization, and multiple potential approaches for size reduction.
The PIFA also finds useful applications in diversity schemes. Its sensitivity to both the vertical and horizontal polarization is important for mobile cellular/RF data communication applications because of the absence of fixed orientation of the antenna as well as the multi path propagation conditions. All these features render the PIFA to be a good choice as an internal antenna for mobile cellular/RF data communication applications.
Regarding the single ISM band PIFA technology, the thrust of research has been on optimal performance with the miniaturization in the sizes of both the antenna and the ground plane. Recently, however, there is a gradual shift of the emphasis from the existing single ISM band operation to dual or tri ISM band operating covering the frequency ranges of 2.4-2.5, 5.15-5.35, and 5.47-5.725 GHz. This calls for the development of dual or tri ISM band antennas for applications in wireless communication. There exists a continued interest and requirement for the compact dual and/or tri ISM band PIFA for emerging applications of RF data wireless systems comprising laptop computer and other handheld electronic devices, such as, for example, PDAs, electronic games, cellular phones, etc.
Unlike the case of PIFA for cellular applications, in wireless RF data communication systems, there exist variations on the sizes of the radiating element and ground plane as well as on the choice of preferred placement of the PIFA within the device.
In the majority of single feed cellular dual band PIFAs, quasi-physical partitioning of the radiating element facilitates dual frequency operation. Conventionally, a slot (straight, inclined, or L-shaped) forms a quasi-physical partitioning of the radiating element to facilitate the desired physical partitioning of the PIFA structure. When the system requirements impose stringent restrictions on the allowable width of the radiating element or ground plane, such as, for example, widths as low as about 1 to about 3 mm, the conventional dual band PIFA design invoking hitherto proven slot technique can prove to be a difficult, if not impossible, task.
A conventional dual band PIFA
70
with a single feed is illustrated in
FIGS. 13A and 13B
. Dual band PIFA
70
has a radiating element
301
and a ground plane
302
. An L-shaped slot
303
on the radiating element
301
creates a quasi-physical partitioning of the radiating element
301
. The segment on the radiating element
301
with dimensions of length (L
1
) and width (W
1
) resonates at the lower frequency band of the multi band operation. Conventionally, dual band (2.4-2.5/5.15-5.35 GHz) PIFA
70
has operating dimensions of lengths between 19.16-18.38 mm for (L
1
) and between 12.07-11.58 mm for (W
1
). The segment on the radiating element
301
with dimensions of length (L
2
) and width (W
2
) resonates at the upper frequency band of the multi band operation. Conventionally, the partition results in typical operating dimensions between 8.93-8.59 mm for (L
2
) and 5.63-5.41 mm for (W
2
). A power feed hole
304
is located on the radiating element
301
. A connector feed pin
305
a
, used for feeding radio frequency (RF) power to the radiating element
301
, is inserted through the feedhole
304
from the bottom surface of the ground plane
302
. The connector feed pin
305
a
is electrically insulated from the ground plane
302
where the feed pin passes through the hole in the ground plane
302
. The connector feed pin
305
a
is electrically connected to the radiating element
301
with solder at
306
a
. The body of the feed connector
305
b
is connected to the ground plane
302
at
306
b
with solder. The connector feed pin
305
a
is electrically insulated from the body of feed connector
305
b
. A through hole
307
is located on the radiating element
301
. A conductive post
308
is connected to the radiating element
301
at
309
a
with solder. The conductive post
308
also is connected to the ground plane
302
at
309
b
with solder. The dual band impedance match of the radiating element
301
is determined by the diameter of the connector feed pin
305
a
, the diameter of the conductive shorting post
308
and the separation distance between the connector feed pin
305
a
and the conductive shorting post
308
. The main disadvantage of the configuration of the multi band PIFA
70
is the lack of simple means of adjusting the separation of lower and upper resonant frequency bands. The change in the separation of the resonant frequency bands requires the repositioning of the slot
303
. The above configuration is also associated with a constraint on the realizable bandwidth centered on the dual resonant frequencies of the PIFA
70
.
Thus, it would be desirous to develop a dual or tri band PIFA antenna using a relatively compact antenna construct. In a related study and yet distinct from the proposed invention, the design of a single feed tri band PIFA or dual cellular and non cellular (GPS or ISM) applications has been reported in U.S. patent application Ser. No. 10/135,312, filed Apr. 29, 2002, of Kadambi et al., titled “A Single Feed Tri Band PIFA with Parasitic Element,” which is incorporated herein by reference.
SUMMARY OF THE INVENTION
This invention presents new and alternative design techniques of single feed Dual/Tri ISM band PIFA for wireless system applications. To attain the advantages of and in accordance with the purpose of the present invention, dual and/or tri ISM band PIFA antennas are provided. In particular, an antenna comprises at least a ground plane, a radiating element, a short, and a feed tab. The short provides a connection between the ground plane and the radiating element. The feed tab connected to the radiating element provides RF power and provides some frequency control. While the feed tab provides some frequency control, additional frequency control is obtained by the addition of one or more of a parasitic element, a slot, tuning stubs, and capacitive elements.
REFERENCES:
patent: 5420596 (1995-05-01), Burrell et al.
patent: 5966097 (1999-10-01), Fukasawa et al.
patent: 6218991 (2001-04-01), Sanad
patent: 6222496 (2001-04-01), Liu
patent: 6297776 (2001-10-01), Pankinaho
patent: 6346914 (2002-02-01), Annamaa
patent: 6421014 (2002-07-01), Sanad
patent: 6456249 (2002-09-01), Johnson et al.
Bateman Blaine R.
Cumro Gary A.
Haussler Bradley S.
Kadambi Govind R.
Volkmer Michael G.
Centurion Wireless Technologies, Inc.
Ho Tan
Holland & Hart
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