133 research outputs found
UWB Electric and Magnetic Monopole Antennas
This paper summarizes our recent advances in antenna designs for ultra wideband (UWB) applications. Two types of monopoles are studied and developed in our research group. The first type belongs to the electric monopole with a circular disc fed by three different feeding structures. The second type is the magnetic monopole with an elliptical slot. The performances of these two types of antennas are evaluated in both frequency and time domains. The important design parameters for achieving optimal operations are also analyzed. It is shown that both electric and magnetic monopoles can provide ultra wide bandwidth with nearly omni-directional radiation patterns over the entire frequency band. In addition, the impulse responses of the selected antennas are shown to correspond well to the frequency domain characteristics
CPW-Fed Circular Disc Monopole Antenna with Defected Waveguide Structures
This paper presented a parametric study on coplanar waveguide-fed (CPW-fed) circular disc monopole antenna with defected waveguide structure (DWS). The CPWfed circular disc monopole antenna was designed to cover wideband frequencies. Afterward, the monopole antenna was attached to a waveguide with a uniplanar compact defected waveguide structure (UC DWS). The simulation design and parametric studies were done by using the CST Microwave studio software. Initially, the CPW-fed circular disc monopole antenna was designed to achieve return loss of -10dB from 2.36GHz to 10GHz. The directivity has improved significantly when the monopole antenna was attached to a waveguide where the highest directivity was 9.83dBi at 8.5GHz. However, narrower bandwidth and lower efficiency were achieved. It achieved a bandwidth of 0.49GHz and highest efficiency of -1.76dB at 8.5GHz. The UC DWS was then designed on the inner surface of the waveguide with smaller dimension with 6.25 x 6.25mm 2 and a small gap of 0.3mm. The directivity and gain have been improved. The highest directivity and gain were 7.10dBi at 8.5GHz and 5.42dB at 6.5GHz respectively. The bandwidth was 3.66GHz where it covered from 6.34GHz to 10GHz
A Review: Circuit Theory of Microstrip Antennas for Dual-, Multi-, and Ultra-Widebands
In this chapter, a review has been presented on dual-band, multiband, and ultra-wideband (UWB). This review has been classified according to antenna feeding and loading of antennas using slots and notch and coplanar structure. Thereafter a comparison of dual-band, multiband, and ultra-wideband antenna has been presented. The basic geometry of patch antenna has been present along with its equivalent circuit diagram. It has been observed that patch antenna geometry for ultra-wideband is difficult to achieve with normal structure. Ultra-wideband antennas are achieved with two or more techniques; mostly UWB antennas are achieved from coplaner structures
Antenna Study and Design for Ultra Wideband Communication Applications
PhDSince the release by the Federal Communications Commission (FCC) of a bandwidth of
7.5GHz (from 3.1GHz to 10.6GHz) for ultra wideband (UWB) wireless communications,
UWB is rapidly advancing as a high data rate wireless communication technology.
As is the case in conventional wireless communication systems, an antenna also plays
a very crucial role in UWB systems. However, there are more challenges in designing
a UWB antenna than a narrow band one. A suitable UWB antenna should be capable
of operating over an ultra wide bandwidth as allocated by the FCC. At the same
time, satisfactory radiation properties over the entire frequency range are also necessary.
Another primary requirement of the UWB antenna is a good time domain performance,
i. e. a good impulse response with minimal distortion.
This thesis focuses on UWB antenna design and analysis. Studies have been undertaken
covering the areas of UWB fundamentals and antenna theory. Extensive investigations
were also carried out on two different types of UWB antennas.
The first type of antenna studied in this thesis is circular disc monopole antenna. The
vertical disc monopole originates from conventional straight wire monopole by replacing
the wire element with a disc plate to enhance the operating bandwidth substantially.
Based on the understanding of vertical disc monopole, two more compact versions featuring
low-profile and compatibility to printed circuit board are proposed and studied.
Both of them are printed circular disc monopoles, one fed by a micro-strip line, while
the other fed by a co-planar waveguide (CPW).
The second type of UWB antenna is elliptical/circular slot antenna, which can also be
fed by either micro-strip line or CPW.
The performances and characteristics of UWB disc monopole and elliptical/circular slot
antenna are investigated in both frequency domain and time domain. The design parameters
for achieving optimal operation of the antennas are also analyzed extensively in
order to understand the antenna operations.
It has been demonstrated numerically and experimentally that both types of antennas
are suitable for UWB applications
2009 Index IEEE Antennas and Wireless Propagation Letters Vol. 8
This index covers all technical items - papers, correspondence, reviews, etc. - that appeared in this periodical during the year, and items from previous years that were commented upon or corrected in this year. Departments and other items may also be covered if they have been judged to have archival value. The Author Index contains the primary entry for each item, listed under the first author\u27s name. The primary entry includes the coauthors\u27 names, the title of the paper or other item, and its location, specified by the publication abbreviation, year, month, and inclusive pagination. The Subject Index contains entries describing the item under all appropriate subject headings, plus the first author\u27s name, the publication abbreviation, month, and year, and inclusive pages. Note that the item title is found only under the primary entry in the Author Index
2008 Index IEEE Transactions on Control Systems Technology Vol. 16
This index covers all technical items - papers, correspondence, reviews, etc. - that appeared in this periodical during the year, and items from previous years that were commented upon or corrected in this year. Departments and other items may also be covered if they have been judged to have archival value. The Author Index contains the primary entry for each item, listed under the first author\u27s name. The primary entry includes the coauthors\u27 names, the title of the paper or other item, and its location, specified by the publication abbreviation, year, month, and inclusive pagination. The Subject Index contains entries describing the item under all appropriate subject headings, plus the first author\u27s name, the publication abbreviation, month, and year, and inclusive pages. Note that the item title is found only under the primary entry in the Author Index
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Optically transparent UWB antenna for wireless application & energy harvesting
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.Transparent UWB antennas have been the focus of this PhD research. The use of transparent UWB antennas for stealth and energy harvesting has been the underlying applications that have given impetus to this research. Such transparent antennas being
built on materials that are discreet, flexible, conformal, conductive and having the ability to provide good antenna performance on glass to serve as the ālast mileā link in subsequent generation communications after 4G have been the basis for this contention. UWB in this regard is able to provide the transmission and reception of high data rates and fast video transmission that is an elementary demand of even a 4G wireless communications system. The integration of UWB antennas with photovoltaic to provide integral energy harvesting solutions that will further enhance the value of the UWB system in terms of cost effectiveness and performance are thus the basis of this work. This work hence starts with the study of a transparent conductive oxide polymer, AgHT and its properties, and culminates in the development of a transparent UWB antenna, which can be integrated with photovoltaic for window glass applications on homes and buildings. Other applications such transparent antennas can find use for like
on-body wireless communications in healthcare monitoring was also analysed and
presented. The radar absorbing material (RAM) property of the AgHT was investigated
and highlighted using CST simulation software, as no measurement facilities were
available. The transparent UWB antenna in lieu of the inherent absorbent property of
the AgHT material is thus able to exhibit stealth characteristics, a feature that would be much desired in military communications. Introduction of a novel method of connecting the co-axial connector to the feed of the antenna to improve gain and efficiency of transparent polymer based antennas and the development of a UWB antenna that maintains its Omni-directional characteristic instead of becoming directional on an amorphous silicon solar cell are presented as some of the contributions for this research work. Some preliminary analysis on the impact of glass on UWB antennas for video transmission and how to improve transmission is presented. The ability of the conductive part of the antenna radiator to be used as a RF and microwave harvester and how it can further add value to a transparent UWB antenna is presented by way of experimental data. Finally yet importantly, this thesis presents some insight into how transparent
antennas may be used in Green Technology Buildings to provide an integrated solution
for both wireless communications and energy harvesting as part of the future work.
Improvement to the aesthetics of the external appearance of residential buildings
through the integration of transparent satellite dish onto solar panels on rooftops is also discussed and illustrated as part of this future work
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