This document describes the design and simulation of a trapezoidal microstrip patch antenna for ultra-wideband applications from 3-10 GHz. The antenna has a trapezoidal patch connected to a microstrip feedline on an FR4 substrate. A slot is etched in the ground plane to increase the impedance bandwidth. Simulations show the antenna achieves over 107% fractional bandwidth with return loss over 10 dB and VSWR less than 2 across the band. Radiation patterns are omnidirectional in the H-plane and bidirectional in the E-plane. The antenna realizes an average gain of 4.569 dB and is presented as a candidate for UWB applications.
Size Reduction and Gain Enhancement of a Microstrip Antenna using Partially D...IJECEIAES
Microwave engineers have been known to designedly created defects in the shape of carved out patterns on the ground plane of microstrip circuits and transmission lines for a long time, although their implementations to the antennas are comparatively new. The term Defected Ground Structure (DGS), precisely means a single or finite number of defects. At the beginning, DGS was employed underneath printed feed lines to suppress higher harmonics. Then DGS was directly integrated with antennas to improve the radiation characteristics, gain and to suppress mutual coupling between adjacent elements. Since then, the DGS techniques have been explored extensively and have led to many possible applications in the communication industry. The objective of this paper is to design and investigate microstrip patch antenna that operates at 2.4 GHz for Wireless Local Area Network WLAN IEEE 802.11b/g/n, ,Zigbee, Wireless HART, Bluetooth and several proprietary technologies that operate in the 2.4 GHz band. The design of the proposed antenna involves using partially Defected Ground Structure and circular/cross slots and compare it to the traditional microstrip patch antenna. The results show improvement in both the gain of 3.45 dB and the S11 response of -22.3 dB along with reduction in the overall dimensions of the antenna. As a conclusion, the performance of the antenna has been improved through the incorporation with the DGS and slots structures regarding the S11 response and the gain. The proposed antenna become more compact. Finally, the radiation pattern of proposed antenna has remained directional in spite of adding slots on the ground plane.
Defective ground structure and complimentary split ring resonator loaded comp...TELKOMNIKA JOURNAL
A wideband compact antenna with wo Bandwidth enhancement techniques intended for radiolocation applications is presented. Defective ground structure (DGS) is used to enhance the bandwidth and complimentary split ring resonator (CSRR) has been used to generate the bandwidth at the lower frequency of the antenna which brings compact nature. A coax feed patch antenna radiating at X-band frequency of 10 GHz is loaded with DGS and CSRR. Proposed antenna with a bandwidth of 3.4 GHz has shown a considerable enhancement in the antenna bandwidth when compared with the antenna with CSRR alone which is having a bandwidth of 1.15 GHz and a basic patch antenna whose bandwidth is 0.91 GHz. Proposed antenna is having omni directional radiation pattern with a gain of 5.01 dB and without any null in the coverage area. A great increase in the current fields can be observed that the field currents by loading the patch and ground with CSRR and DGS respectively. The patch currents have increased from 2.76 v/m to 3.25 v/m and the ground currents have increased from 0v/m to 2.45 v/m. Proposed antenna has been realized and its performance is measured using vector network analyzer, a near match in between the simulated result and measured result is observed.
Size Reduction and Gain Enhancement of a Microstrip Antenna using Partially D...IJECEIAES
Microwave engineers have been known to designedly created defects in the shape of carved out patterns on the ground plane of microstrip circuits and transmission lines for a long time, although their implementations to the antennas are comparatively new. The term Defected Ground Structure (DGS), precisely means a single or finite number of defects. At the beginning, DGS was employed underneath printed feed lines to suppress higher harmonics. Then DGS was directly integrated with antennas to improve the radiation characteristics, gain and to suppress mutual coupling between adjacent elements. Since then, the DGS techniques have been explored extensively and have led to many possible applications in the communication industry. The objective of this paper is to design and investigate microstrip patch antenna that operates at 2.4 GHz for Wireless Local Area Network WLAN IEEE 802.11b/g/n, ,Zigbee, Wireless HART, Bluetooth and several proprietary technologies that operate in the 2.4 GHz band. The design of the proposed antenna involves using partially Defected Ground Structure and circular/cross slots and compare it to the traditional microstrip patch antenna. The results show improvement in both the gain of 3.45 dB and the S11 response of -22.3 dB along with reduction in the overall dimensions of the antenna. As a conclusion, the performance of the antenna has been improved through the incorporation with the DGS and slots structures regarding the S11 response and the gain. The proposed antenna become more compact. Finally, the radiation pattern of proposed antenna has remained directional in spite of adding slots on the ground plane.
Defective ground structure and complimentary split ring resonator loaded comp...TELKOMNIKA JOURNAL
A wideband compact antenna with wo Bandwidth enhancement techniques intended for radiolocation applications is presented. Defective ground structure (DGS) is used to enhance the bandwidth and complimentary split ring resonator (CSRR) has been used to generate the bandwidth at the lower frequency of the antenna which brings compact nature. A coax feed patch antenna radiating at X-band frequency of 10 GHz is loaded with DGS and CSRR. Proposed antenna with a bandwidth of 3.4 GHz has shown a considerable enhancement in the antenna bandwidth when compared with the antenna with CSRR alone which is having a bandwidth of 1.15 GHz and a basic patch antenna whose bandwidth is 0.91 GHz. Proposed antenna is having omni directional radiation pattern with a gain of 5.01 dB and without any null in the coverage area. A great increase in the current fields can be observed that the field currents by loading the patch and ground with CSRR and DGS respectively. The patch currents have increased from 2.76 v/m to 3.25 v/m and the ground currents have increased from 0v/m to 2.45 v/m. Proposed antenna has been realized and its performance is measured using vector network analyzer, a near match in between the simulated result and measured result is observed.
Design and Analysis of Microstrip Patch Antenna with Optimization for Wireles...ijsrd.com
In this paper, design of conventional Rectangular patch Microstrip antenna has been proposed and its performance is analyzed. The design parameters of antenna are selected to achieve compact dimensions as well as best possible characteristics such as high gain, increased bandwidth with minimum return loss. Hence improved design has been demonstrated over elementary one. These antennas have been designed at 2.4GHz which enables its usage in wireless communication domain such as Wireless Local Area Network (WLAN). The antenna design and performance are analyzed using Ansoft HFSS software. These antennas can be used for many wireless communication systems.
Design of Square Miniaturized L Band Fractal AntennaEditor IJMTER
This paper introduces a new square patch miniaturized antenna operating in L band. The
design and analysis of the antenna is executed using IE3D electromagnetic simulation software using
substrate parameter of glass epoxy FR-4 substrate. In this paper, a Square patch of 10X10 mm2 is
investigated. In further improvements, parts of the patch are removed in two iterations to obtain a
miniaturized antenna. The proposed fractal antenna has a great potential of application and gives a
stable radiation performance in the frequency range of 1.333 GHz to 2 GHz.
Inverted Diamond-shaped Notched Substrate and Patch for High-frequency Interf...IJECEIAES
Notches loaded on a patch antenna can affect significantly on the antenna impedance matching. Therefore, notching technique is an efficient way to reduce the electromagnetic interference with unwanted bands. In this paper, a novel inverted diamond - shaped closed-end slot on a substrate and vertexfed printed hexagonal patch ultra - wideband antenna is proposed for highfrequency band rejection. This antenna is fed using coplanar waveguide, and it is optimised by veering several patch parameters which further improved the inter bandwidth at both the lower and upper bands. However, the centrenotched band is shifted from 6GHz to 7.5GHz by cutting the inverted diamond shape in a special process. The developed ultra-wideband antenna is verified by comparing the simulation results with the measurement results. The measured results with a fractional bandwidth of 133% have a good agreement with the simulation results 146%. Moreover, the measured radiation showed omnidirectional patterns.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Multi Slot Uwb Antennas to Minimize the Interferences from Wlan & X-Band Appl...IOSRJECE
In this paper designs of different UWB patch antennas with two rejected bands are given. The reference antenna consists of a rectangular patch etched on FR4- epoxy substrate with 50 Ω feed line and relative permittivity 4.4.. The simulated bandwidth with return loss (RL) ≥10 dB is 3.42–11.7 GHz. The rejected bands here are the WLAN and X-bands, achieved by inserting slots in the patch and the feed. The simulation results of the antennas indicate higher gain at the pass bands while a sharp drop at the rejected bands is seen. The second (reference) antenna consists of a hexagonal patch etched on FR4- epoxy substrate with 50 Ω feed line and relative permittivity 4.4,shows better return loss and rejection of the bands. The high frequency structure simulator (HFSS) is used to design and simulate the antennas behaviour over the different frequency ranges. Measurements confirm the antenna characteristic as predicted in the simulation with a slight shift in frequencies.
Microstrip Rectangular Monopole Antennas with Defected Ground for UWB Applica...IJECEIAES
This paper presents the design of new compact antennas for ultra wide band applications. Each antenna consists of a rectangular patch fed by 50Ω microstrip transmission line and the ground element is a defected ground structure (DGS). The aim of this study is to improve the bandwidth of these antennas by using DGS and the modification geometry of rectangular structure, which gives new compact antennas for UWB applications. The input impedance bandwidth of the antennas with S11<-10dB is more than 10GHz, from 3GHz to more than 14 GHz. The proposed antennas are investigated and optimized by using CST microwave studio, they are validated by using another electromagnetic solver Ansoft HFSS. The measured parameters present good agreement with simulation. The final antenna structures offer excellent performances for UWB system.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
ER Publication,
IJETR, IJMCTR,
Journals,
International Journals,
High Impact Journals,
Monthly Journal,
Good quality Journals,
Research,
Research Papers,
Research Article,
Free Journals, Open access Journals,
erpublication.org,
Engineering Journal,
Science Journals,
Microstrip Antenna Design For Ultra-Wide Band Applicationsinventionjournals
: In this paper design of ultra-wide band (UWB) antenna. The UWB antenna is capable of operating over an UWB as allocated by the Federal Communications Commission (FCC) with good radiation properties over the entire frequency range. The techniques of enhancing the bandwidth of microstrip UWB antenna were utilized to enhance them performance of the designed antenna. The (UWB) antenna with substrate FR4epoxy having dielectric constant 4.4 and substrate height of 1.6mm is designed and analyzed with different parameters like VSWR, Gain, Peak directivity, Return losses, Bandwidth etc,.The rectangular patch has two slots one slot at the topmost left corner another one at bottom right corner. The simulated bandwidth with return loss (RL) ≥ 10 dB is 2.2–5.6GHz. The simulated results of the proposed antenna indicate higher gain at the passbands while a sharp drop at the rejected bands is seen. The radiation pattern is of dipole shape in the Eplane and almost omnidirectional in the H-plane. The high frequency structure simulator HFSS (High Frequency Structure Simulator) version 13.0 software is used to design and simulate the antennas behavior over the different frequency ranges. Measurements confirm the antenna characteristic as predicted in the simulation with a slight shift in frequencies.
Planar Internal Antenna Design for Cellular Applications & SAR AnalysisIJERD Editor
This paper presents a new design of direct-fed Multi band printed Planar Internal Antenna (PIA), for
cellular applications. The PIA antenna is composed of ground plane, meander radiating strip and two other
parasitic strips are printed on a common substrate. The designed antenna has been simulated in CST
environment. The simulated results for the resonant frequency, return loss, radiation pattern and gain are
presented and discussed. The bandwidths for three resonance achieved on the basis of -6 dB return loss.These
Bandwidths can be utilized for GSM 900, GSM 1800, GSM 1900, LTE 2300 and Bluetooth/WLAN as an
acceptable reference in mobile phones applications. Further the antenna was placed in proximity to the SAR
head on CST environment. The simulated results of SAR analysis are presented in this paper with acceptable
range.
STUDY OF ARRAY BI-CONICAL ANTENNA FOR DME APPLICATIONSijwmn
This paper introduces a new configuration of array bi-conical antenna to enhance the gain of an antenna for Distance Measuring Equipment (DME) avionic system. Due to its large size, the antenna can be placed in terrestrials DME stations. The antenna consists of the bi-conical elements placed in a linear configuration. The simulated maximum gain is 10.2dB, the antenna operates in the DME band (960 – 1215 MHz). Al the simulations are performed with CADFEKO a Method of Moments based Solver.
Design and Analysis of Microstrip Patch Antenna with Optimization for Wireles...ijsrd.com
In this paper, design of conventional Rectangular patch Microstrip antenna has been proposed and its performance is analyzed. The design parameters of antenna are selected to achieve compact dimensions as well as best possible characteristics such as high gain, increased bandwidth with minimum return loss. Hence improved design has been demonstrated over elementary one. These antennas have been designed at 2.4GHz which enables its usage in wireless communication domain such as Wireless Local Area Network (WLAN). The antenna design and performance are analyzed using Ansoft HFSS software. These antennas can be used for many wireless communication systems.
Design of Square Miniaturized L Band Fractal AntennaEditor IJMTER
This paper introduces a new square patch miniaturized antenna operating in L band. The
design and analysis of the antenna is executed using IE3D electromagnetic simulation software using
substrate parameter of glass epoxy FR-4 substrate. In this paper, a Square patch of 10X10 mm2 is
investigated. In further improvements, parts of the patch are removed in two iterations to obtain a
miniaturized antenna. The proposed fractal antenna has a great potential of application and gives a
stable radiation performance in the frequency range of 1.333 GHz to 2 GHz.
Inverted Diamond-shaped Notched Substrate and Patch for High-frequency Interf...IJECEIAES
Notches loaded on a patch antenna can affect significantly on the antenna impedance matching. Therefore, notching technique is an efficient way to reduce the electromagnetic interference with unwanted bands. In this paper, a novel inverted diamond - shaped closed-end slot on a substrate and vertexfed printed hexagonal patch ultra - wideband antenna is proposed for highfrequency band rejection. This antenna is fed using coplanar waveguide, and it is optimised by veering several patch parameters which further improved the inter bandwidth at both the lower and upper bands. However, the centrenotched band is shifted from 6GHz to 7.5GHz by cutting the inverted diamond shape in a special process. The developed ultra-wideband antenna is verified by comparing the simulation results with the measurement results. The measured results with a fractional bandwidth of 133% have a good agreement with the simulation results 146%. Moreover, the measured radiation showed omnidirectional patterns.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Multi Slot Uwb Antennas to Minimize the Interferences from Wlan & X-Band Appl...IOSRJECE
In this paper designs of different UWB patch antennas with two rejected bands are given. The reference antenna consists of a rectangular patch etched on FR4- epoxy substrate with 50 Ω feed line and relative permittivity 4.4.. The simulated bandwidth with return loss (RL) ≥10 dB is 3.42–11.7 GHz. The rejected bands here are the WLAN and X-bands, achieved by inserting slots in the patch and the feed. The simulation results of the antennas indicate higher gain at the pass bands while a sharp drop at the rejected bands is seen. The second (reference) antenna consists of a hexagonal patch etched on FR4- epoxy substrate with 50 Ω feed line and relative permittivity 4.4,shows better return loss and rejection of the bands. The high frequency structure simulator (HFSS) is used to design and simulate the antennas behaviour over the different frequency ranges. Measurements confirm the antenna characteristic as predicted in the simulation with a slight shift in frequencies.
Microstrip Rectangular Monopole Antennas with Defected Ground for UWB Applica...IJECEIAES
This paper presents the design of new compact antennas for ultra wide band applications. Each antenna consists of a rectangular patch fed by 50Ω microstrip transmission line and the ground element is a defected ground structure (DGS). The aim of this study is to improve the bandwidth of these antennas by using DGS and the modification geometry of rectangular structure, which gives new compact antennas for UWB applications. The input impedance bandwidth of the antennas with S11<-10dB is more than 10GHz, from 3GHz to more than 14 GHz. The proposed antennas are investigated and optimized by using CST microwave studio, they are validated by using another electromagnetic solver Ansoft HFSS. The measured parameters present good agreement with simulation. The final antenna structures offer excellent performances for UWB system.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
ER Publication,
IJETR, IJMCTR,
Journals,
International Journals,
High Impact Journals,
Monthly Journal,
Good quality Journals,
Research,
Research Papers,
Research Article,
Free Journals, Open access Journals,
erpublication.org,
Engineering Journal,
Science Journals,
Microstrip Antenna Design For Ultra-Wide Band Applicationsinventionjournals
: In this paper design of ultra-wide band (UWB) antenna. The UWB antenna is capable of operating over an UWB as allocated by the Federal Communications Commission (FCC) with good radiation properties over the entire frequency range. The techniques of enhancing the bandwidth of microstrip UWB antenna were utilized to enhance them performance of the designed antenna. The (UWB) antenna with substrate FR4epoxy having dielectric constant 4.4 and substrate height of 1.6mm is designed and analyzed with different parameters like VSWR, Gain, Peak directivity, Return losses, Bandwidth etc,.The rectangular patch has two slots one slot at the topmost left corner another one at bottom right corner. The simulated bandwidth with return loss (RL) ≥ 10 dB is 2.2–5.6GHz. The simulated results of the proposed antenna indicate higher gain at the passbands while a sharp drop at the rejected bands is seen. The radiation pattern is of dipole shape in the Eplane and almost omnidirectional in the H-plane. The high frequency structure simulator HFSS (High Frequency Structure Simulator) version 13.0 software is used to design and simulate the antennas behavior over the different frequency ranges. Measurements confirm the antenna characteristic as predicted in the simulation with a slight shift in frequencies.
Planar Internal Antenna Design for Cellular Applications & SAR AnalysisIJERD Editor
This paper presents a new design of direct-fed Multi band printed Planar Internal Antenna (PIA), for
cellular applications. The PIA antenna is composed of ground plane, meander radiating strip and two other
parasitic strips are printed on a common substrate. The designed antenna has been simulated in CST
environment. The simulated results for the resonant frequency, return loss, radiation pattern and gain are
presented and discussed. The bandwidths for three resonance achieved on the basis of -6 dB return loss.These
Bandwidths can be utilized for GSM 900, GSM 1800, GSM 1900, LTE 2300 and Bluetooth/WLAN as an
acceptable reference in mobile phones applications. Further the antenna was placed in proximity to the SAR
head on CST environment. The simulated results of SAR analysis are presented in this paper with acceptable
range.
STUDY OF ARRAY BI-CONICAL ANTENNA FOR DME APPLICATIONSijwmn
This paper introduces a new configuration of array bi-conical antenna to enhance the gain of an antenna for Distance Measuring Equipment (DME) avionic system. Due to its large size, the antenna can be placed in terrestrials DME stations. The antenna consists of the bi-conical elements placed in a linear configuration. The simulated maximum gain is 10.2dB, the antenna operates in the DME band (960 – 1215 MHz). Al the simulations are performed with CADFEKO a Method of Moments based Solver.
Talk sponsored by Historic Port of Washington group for 2016 Washington Marine Market on the downtown waterfront. Lecture held at the NC Estuarium on Water Street. 22 slides reviewing Age of Sail from 16th c. to early 20th c. with a focus on maritime history of Washington Second speaker was Rick Zablocki on the Pamlico Age of Steam (his slides not included here but hopefully will be at a later date on the hpow.org website). .
Sightseeing tours in Budapest & Hungary. Tours are escorted by professional tour guides. Live guiding in 5 languages: English, German, Spanish, Italian and French.
A CPW-Fed Wideband And Multiband Rectangular Microstrip Patch Antenna For Wir...IJMER
In this paper a rectangular patch antenna is proposed for both the multiband and wide band
operations with a coplanar waveguide (CPW) feeding. The proposed antenna has a size of
30x40x1.57mm3 including the ground plane and it is designed on FR4 substrate with a dielectric constant
of 4.4. The proposed antenna resonates at four distinct frequency bands, centered at 3.03, 4.84, 7.94 and
8.85 GHz. The return loss for the above mentioned frequency bands can be controlled and can be
adjusted with parametric analysis of E-slot. The various terms and parameters associated with the
antenna like return loss, radiation patterns, VSWR, current distributions and gain are analyzed and are
optimized by the simulations carried out using finite element method based Ansoft High Frequency
Structural Simulator(HFSS).
DESIGN & PARAMETRIC STUDY OF RECTANGULAR SLOT MICROSTRIP PATCH ANTENNA FOR UW...IJEEE
A Microstrip fed antenna which consists of a
rectangular patch with rectangular shaped slot incorporated
into patch is presented for ultra wide band application with
enhanced bandwidth. The proposed antenna achieves an
impedance bandwidth of 8.9GHz (2.3-11.2GHz) with
VSWR< 2 for over the entire bandwidth.
A Design of Double Swastika Slot Microstrip Antenna for Ultra Wide Band and W...ijcisjournal
This paper presents a design of double Swastika Slot Micro-strip Antenna which can be used in UWB and
WiMAX Applications. The proposed antenna operates at resonant frequencies 3GHz and 3.11 GHz. At
3GHz obtained value of VSWR is 1 and return loss is -42dB and at 3.11 GHz VSWR is 1.7 and return loss
is -12dB. RT Duroid having dielectric constant 2.2 is used as substrate. Here the double Swastika slot
Antenna is fed with the coaxial feeding technique.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
A small H-shaped microstrip patch antenna (MPA) with enhanced bandwidth is presented. The H-shaped antenna is first studied and then fully simulated by HFSS. A dual U slot H patch configuration is proposed to increase the narrow bandwidth, radiation efficiency and directivity. A novel H-shaped patch antenna suitable for wireless and satellite communications is presented. This paper presents the dual U slot H-shaped microstrip patch antenna feed by transmission line. The decrease in the prices of handheld devices and services has made available on the move internet and web services facility to the customers, small antennas requirement are increasing. In this paper H-shaped patch antenna is designed using FR4 substrate. The proposed modified H shaped antenna is designed and simulated using HFSS and caters to various wireless applications such as WiMAX, Wi-Fi, UMTS and Digital Multimedia Broadcasting (DMB) e.g. T V, etc.
Folded Shorted Patch Antenna with Slots for RF Energy Harvesting in Wireless ...ijtsrd
There are various types of microstrip antenna that can be used for many applications in communication systems. This paper presents the design of a folded shorted patch antenna FSPA for the application of Radio Frequency RF energy harvesting system capable of receiving radio frequency of GSM 900 band 860MHz to 960MHz . The antenna is designed using microstrip technology on an FR 4 substrate with a dielectric constant of 4.4 and a thickness of 1.6. The antenna was designed and simulated using FEKO, the Electromagnetic solver software. One slot is incorporated into the upper patch of the FSPA. Simulated results show that this antenna can attain an impedance bandwidth of 32MHz from 884MHz to 916MHz at the center frequency of 900MHz with the slot. The results also reveal the good unidirectional radiation pattern and the stable gain over the operating frequency. This antenna is well compatible with using RF energy harvesting to receive the signal of the GSM 900 band. Aye Thet Mon | Chaw Myat Nwe "Folded Shorted Patch Antenna with Slots for RF Energy Harvesting in Wireless Sensor Network" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26476.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26476/folded-shorted-patch-antenna-with-slots-for-rf-energy-harvesting-in-wireless-sensor-network/aye-thet-mon
International Journal of Computational Engineering Research(IJCER) ijceronline
nternational Journal of Computational Engineering Research (IJCER) is dedicated to protecting personal information and will make every reasonable effort to handle collected information appropriately. All information collected, as well as related requests, will be handled as carefully and efficiently as possible in accordance with IJCER standards for integrity and objectivity.
Study of Compact and Wideband Microstrip U-Slot Patch Antenna with DGS for Sa...Rammohan Mudgal
Microstrip patch antennas are used in many wireless
communication applications. This paper proposes the use of a
patch antenna with U-shaped slot and ground with reduced
dimension having DGS(Defected Ground Structure.) to achieve
wideband application with very low return loss. The objective of
this paper is to design, construct and fabricate microstrip antennas
suitable for satellite application that centred at frequency 6.3GHz.
The antenna must operate within the band of 6.3GHz band. This
band is currently being used in military applications. The antenna
is proposed to be used as a transmitting as well as receiving
antenna in wireless network and the mentioned applications. A
thick substrate with finite ground dimensions broadens the
bandwidth of the antenna. The proposed antenna reduced the
return loss as well as increases the bandwidth of the antenna
without increasing substrate height with the help of DGS.
Contrastive Parametric Analysis of Rectangular and Circular Microstrip Patch ...RSIS International
The comparative analysis of the rectangular and
circular patch antenna parameters is presented in this paper. To
make it acceptable for various wireless applications the selected
bandwidth is 10 GHz. HFSS is a software development tool
which is used for design and the study of the performance of the
presented antennas. The study gives the idea that the rectangular
patch antenna exhibits higher return loss than the return loss of
circular patch antenna whereas the rectangular patch antenna
has an improved VSWR value of 1.18 than that of the circular
patch with VSWR 1.27. Also the circular patch antenna offers
about 8% higher radio bandwidth and nearly 2.0dB less side
lobe power than that of the rectangular patch antenna. With rise
in the dielectric constant of the substrate material there is a
diminish structure of the patch antenna which leads to an
accommodation in bandwidth, impedance and efficiency of the
antenna. The simulated antennas are used in the field of 3G
communications due to the resonance frequency. The delineate
study about the dimensions such as width, length, feed point
location, ground dimension for each patch antenna of different
dielectric material are calculated and compared and the result
shows about the contrastive analysis of different patch antenna
performance parameter like VSWR, Reflection coefficient,
Bandwidth, Impedance, Mismatch loss, Directivity, Gain and
Field are analysed and compared. The paper includes the
detailed analysis of various tables, graphs.
Gain Enhancement of Series Feed Square Patch Microstrip Antenna Array for S b...ijsrd.com
Gain is the ability of an antenna to concentrate the radiated power in a desired direction. Only small gain can be achieved by single antenna that is why, antenna arrays are required to improve the gain by using different feed networks. This paper describes the design and performance of a series feed antenna array. The operating frequency of 2.4GHz is used. The aim of this paper is to improve the gain of a series feed antenna array. Line feed is used for designing single antenna, 2x1 & 4x1 microstrip antenna array. These series feed microstrip antenna arrays are useful for both S and C band. The proposed antenna is simulated by IE3D version 9.0 Zealand simulation software based on method of moments.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.