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Substrate Integrated Antennas and Arrays

Substrate Integrated Antennas and Arrays
Author: Yu Jian Cheng
Publisher: CRC Press
Total Pages: 264
Release: 2018-09-03
Genre: Technology & Engineering
ISBN: 1498714579
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Substrate Integrated Antennas and Arrays provides a single source for cutting-edge information on substrate integrated circuits (SICs), substrate integrated waveguide (SIW) feeding networks, SIW slot array antennas, SIC traveling-wave antennas, SIW feeding antennas, SIW monopulse antennas, and SIW multibeam antennas. Inspired by the author’s extensive research, this comprehensive book: Describes a revolutionary SIC-based antenna technique with the potential to replace existing antenna technologies Examines theoretical and experimental results connected to electrical and mechanical performance Explains how to overcome difficulties in meeting bandwidth, gain, and efficiency specifications Substrate Integrated Antennas and Arrays offers valuable insight into the state of the art of SIC and SIW antenna technologies, presenting research useful to the development of wireless communication base station antennas, portable microwave point-to-point systems, collision avoidance radars, conformal antennas, and satellite antennas.

Slotted Substrate Integrated Waveguide Array Antenna & Feed System

Slotted Substrate Integrated Waveguide Array Antenna & Feed System
Author: Bronte MacIntosh-Hobson
Publisher:
Total Pages: 0
Release: 2008
Genre:
ISBN:
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In this thesis we investigate substrate integrated waveguides and their application as a slotted waveguide antenna array. The standard slotted waveguide antenna is designed following Elliot's modified design procedure. Elliot's modified design procedure not only takes into account the effects of mutual coupling from the neighboring slots in the array but also the internal higher order modes that are scattered off adjacent slots. The antenna is then converted to a slotted substrate integrated waveguide antenna by carefully placing two rows of metallic via holes to simulate the sidewalls of the rectangular waveguide. The size and location of the via holes are calculated such that they contain the electromagnetic fields inside the substrate integrated waveguide with negligible leakage loss and that the substrate integrated waveguide has the same propagation constant and characteristic impedance as its equivalent rectangular waveguide. Integrating the waveguide into a substrate allows the entire circuit to be fabricated within the substrate and eliminates the need for complicated transitions that link a rectangular waveguide to a planar circuit. The antenna is fed by a 50? shielded stripline. The stripline is shielded by two rows of via holes placed symmetrically on each side of the trace of the stripline. The transition is composed of a single via hole that links the shielded stripline to the substrate integrated waveguide. Back-to-back transitions between a shielded stripline and a substrate integrated waveguide are designed and simulated for three different frequency bands; C band, Ku band & Ka band. The bandwidth of the transitions ranged from 20-35% in all cases. A back-to-back transition was fabricated for the C-band. The fabrication was done by hand using electrical tape for the stripline inner conductor and screws as the via holes. The bandwidth of the measured results show a smaller bandwidth compared to the simulated results. This disparity is due to the imperfections associated with fabricating the transition by hand. A uniform antenna array of 8 slots is designed and simulated with the feed network. A good radiation pattern with sidelobes 14dB below the main beam is observed. The antenna has an impedance bandwidth of 1GHz at the operating frequency of 15GHz.

Substrate Integrated Waveguide Horn Slot Antenna Array

Substrate Integrated Waveguide Horn Slot Antenna Array
Author: Saritha Mugiti
Publisher:
Total Pages: 172
Release: 2011
Genre:
ISBN:
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Substrate integrated waveguide (SIW) is a rectangular dielectric-filled waveguide, which is synthesized in a planar substrate with arrays of metallic vias to realize bilateral side walls and its transitions with planar structures. These vias act as walls of the waveguide supporting current flow, thus allowing for waveguide mode propagation. Substrate integrated waveguide is suggested for low-loss, low-cost and high density integration applications. SIW preserves the advantages from both the traditional rectangular waveguide and microstrip for easy integration. It is used in designing passive circuits such as resonators, couplers, filters, power dividers, circulators, and antennas. Here, full wave analysis is used to design microwave components such as power dividers, T-junctions and right angle bends. Then a transmission line concept is used to construct a feeding network based on these components to speed up the design process. This concept is verified with full wave analysis. Co-simulation technique is investigated and implemented for the feeding network using these passive components resulting in reduced computation time. The response of the feeding network with the antennas such as an H-plane horn in an array environment is investigated. In the process, modified designs for the H-plane horn with a novel concept of a slot on the H-plane horn are achieved and used as elements for the linear arrays.

Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems

Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems
Author: Zhi Ning Chen
Publisher: John Wiley & Sons
Total Pages: 322
Release: 2021-04-29
Genre: Technology & Engineering
ISBN: 1119611156
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Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems The first and only comprehensive text on substrate-integrated mmW antenna technology, state-of-the-art antenna design, and emerging wireless applications Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems elaborates the most important topics related to revolutionary millimeter-wave (mmW) technology. Following a clear description of fundamental concepts including substrate-integrated waveguides and loss analysis, the text treats key design methods, prototyping techniques, and experimental setup and testing. The authors also highlight applications of mmW antennas in 5G wireless communication and next-generation radar systems. Readers are prepared to put techniques into practice through practical discussions of how to set up testing for impedance matching, radiation patterns, gain from 24GHz up to 325 GHz, and more. This book will bring readers state-of-the-art designs and recent progress in substrate-integrated mmW antennas for emerging wireless applications. Substrate-Integrated Millimeter-Wave Antennas for Next-Generation Communication and Radar Systems is the first comprehensive text on the topic, allowing readers to quickly master mmW technology. This book: Introduces basic concepts such as metamaterials Huygens's surface, zero-index structures, and pattern synthesis Describes prototyping in the form of fabrication based on printed-circuit-board, low-temperature-co-fired-ceramic and micromachining Explores applications for next-generation radar and imaging systems such as 24-GHz and 77-GHz vehicular radar systems Elaborates design methods including waveguide-based feeding network, three-dimensional feeding structure, dielectric loaded aperture antenna element, and low-sidelobe synthesis The mmW is one of today’s most important emerging technologies. This book provides graduate students, researchers, and engineers with the knowledge they need to deploy mmW systems and develop new antenna designs with low cost, low loss, and low complexity.

Substrate Integrated Waveguide Cavity-backed Slot Antenna

Substrate Integrated Waveguide Cavity-backed Slot Antenna
Author: Pushkar Bajirao Kulkarni
Publisher:
Total Pages: 141
Release: 2016
Genre:
ISBN:
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Overcoming a narrow bandwidth is an important issue in the design of low-profile cavity-backed slot antenna. In this dissertation, a versatile wideband circularly polarized cavity-backed slot antenna is presented. The structure demonstrates dual-resonance behavior, which can be tailored to provide a wide-band or a dual-band response. Circular polarization is generated with four feeds using sequential rotation technique. Polarization modulation is demonstrated by inverting the phase of the two feeds alone. The study presents and discuses antennas principle of operation, design procedure and realization using a standard economical printed circuit board (PCB) fabrication process. Measurement results indicate that an impedance and polarization bandwidth of 31.1% and > 47% respectively with symmetric radiation patterns in both principal planes can be achieved. Excellent polarization purity is obtained at boresight due to the feeding technique used; making the proposed antenna a suitable candidate in applications demanding high purity or for the use in an array environment. A two element antenna array is investigated demonstrating similar bandwidth as that of a single element along with improved radiation performance. Another advantage of the implemented feeding scheme is high isolation between the differential ports of the antenna, which is used to successfully decipher the unique signature of a chipless RF identification (RFID) tag.

Substrate Integrated Waveguide Antenna Systems

Substrate Integrated Waveguide Antenna Systems
Author: Sara Salem Hesari
Publisher:
Total Pages:
Release: 2018
Genre:
ISBN:
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Due to high demand for planar structures with low loss, a considerable amount of research has been done to the design of substrate integrated waveguide (SIW) components in the mm-wave and microwave range. SIW has many advantages in comparison to conventional waveguides and microstrip lines, such as compact and planar structure, ease of fabrication, low radiation loss, high power handling ability and low cost which makes it a very promising technology for current and future systems operating in K-band and above. Therefore, all the work presented in this dissertation focuses on SIW technology. Five di erent antenna systems are proposed to verify the advantages of using SIW technology. First, a novel K-band end- re SIW circularly polarized (CP) antenna system on a single layer printed-circuit board is proposed. A high gain SIW H-plane horn and a Vivaldi antenna are developed to produce two orthogonal polarizations in the plane of the substrate. CP antennas have become very popular because of their unique characteristics and their applications in satellites, radars and wireless communications. Second, a K-band front-end system for tracking applications is presented. The circuit comprises an antenna array of two Vivaldi antennas, a frequency-selective power combiner, and two frequency-selective SIW crossovers, which eliminate the need for subsequent ltering. The integration of monopulse systems in planar, printed circuit SIW technology combined with the added bene ts of ltering functions is of great importance to the antennas and propagation community. Third, a phased array antenna system consisting of 24 radiating element is designed as feed system for reflector antennas in radio astronomy applications. A Ku-band antipodal dipole antenna with wide bandwidth, low cross-polarization and wide beamwidth is suggested as the radiating element. Forth, four di erent right-angled power dividers including in-phase and out-of-phase dividers as feed systems for antenna arrays are introduced. TE10 - to - TEq0 mode transducers are used for obtaining two, three, and four output dividers with phase control ability at K- and Ka-band. This feature is practical, for instance, when designing tracking systems since they are employed to obtain controllable phase distributions over the output ports. Fifth, a Ku-band beam steering antenna system which is applicable to use for wireless communications, radar systems, and also 5G applications is proposed. This antenna system uses variable reflection-type phase shifters which electrically steer the beam over a 50-degree scan range. Therefore, the SIW technology's reliability and also promising behavior in the microwave frequency range is proven for di erent applications.