A wide band Microstrip antenna is proposed for Ku band applications with defected groundd structure. A circular shape defect is integrated in the ground plane. A novel equivalent circuit model is proposed for Microstrip patch antenna with defected ground structure. Accurate design equations are presented for the wideband Microstrip antenna and theoretical analysis is done for the proposed structure. The proposed antenna has an impedance bandwidth of 56.67% ranging from 9.8 GHz to 17.55 GHz, which covers Ku-band and partially X-band. The antenna shows good radiation characteristics within the entire band, and has a gain ranging from 5 dBi to 12.08 dBi. Minimum isolation between co-polar and cross-polarization level of 20 dB and 15 dB is achieved in H-plane and E-plane respectively. The simulation of the proposed antenna is done on HFSS v.13, and measured results of fabricated antenna are in good agreement with the theoretical and simulated results
Microstrip patch antennas are the most common form
of printed antennas. They became very popular due to their low
profile geometry, light weight and low cost. A Rectangular
Microstrip Patch Antenna with probe feed and substrate used is
Arlon AD260 has the relative permittivity of which is 2.6 is
designed and simulated using high frequency structure simulator
(HFSS). All the Parameters of this microsrip patch Antenna such
as bandwidth, S - parameter, Reflection loss and VSWR has been
found and plotted. The main objective of this work is to consider
the reactive loading effect on the patch and its effect towards the
improvement of the antenna characteristics, particularly the
radiation characteristics in principle plane (E and H) is
examined. As per theoretical approach reactive loading creates
either capacitive loading or inductive loading. Due to this effect
the antenna performance may be degraded or enhanced in terms
of efficiency, isolation, gain, impedance matching etc. The results
of this designed antenna are compared with the existing Micro
strip antenna
Microstrip patch antennas are the most common form
of printed antennas. They became very popular due to their low
profile geometry, light weight and low cost. A Rectangular
Microstrip Patch Antenna with probe feed and substrate used is
Arlon AD260 has the relative permittivity of which is 2.6 is
designed and simulated using high frequency structure simulator
(HFSS). All the Parameters of this microsrip patch Antenna such
as bandwidth, S - parameter, Reflection loss and VSWR has been
found and plotted. The main objective of this work is to consider
the reactive loading effect on the patch and its effect towards the
improvement of the antenna characteristics, particularly the
radiation characteristics in principle plane (E and H) is
examined. As per theoretical approach reactive loading creates
either capacitive loading or inductive loading. Due to this effect
the antenna performance may be degraded or enhanced in terms
of efficiency, isolation, gain, impedance matching etc. The results
of this designed antenna are compared with the existing Micro
strip antenna
Design of Series Feed Microstrip Patch Antenna Array using HFSS Simulatoridescitation
In this paper series feed Micro strip Patch Antenna
Array are designed and analyzed for WLAN application, which
operating at S-band frequency Range of 2.4 GHz. Antenna
arrays are used to achieve higher gain. Larger the number of
antenna elements, better the gain of antenna array would be
achieved. In this paper feeding element and matching line is
used to design the 4 X 1 micro strip patch antenna array.
Micro strip line feed and matching line are used to design
series Micro strip patch antenna array. The measured
radiation pattern and Return loss of 4X1 elements antenna
array are presented. An-soft HFSS simulator is used.
Design of Rectangular Microstrip Antenna with Finite Ground Plane for WI-FI, ...ijsrd.com
Microstrip antennas are suitable for mobile and satellite communication systems. This is particularly due to their main characteristics such as low volume and weight, as well as because they are easy to fabricate and to be installed on plane and curved surfaces. Nevertheless these antennas present some disadvantages like narrow bandwidth, low power operation, and radiation loss. There are some methods such as increasing the height of the substrate, which can be used to extend the efficiency and bandwidth. In this communication design and performance of a novel rectangular with finite ground is proposed to achieve wide band performance and circular polarization. “The proposed structure consists of a rectangular patch and the ground planâ€Â
Design & Simulation of 8-Shape Slotted Microstrip Patch Antenna
This paper presents an 8-shape slotted microstrip patch antenna. The antenna is fed by microstrip
transmission line. The proposed antenna is simulated with the help of commercially available GEMS software
based on the parallel FDTD algorithm. The antenna is designed by FR4 substrate and ground plane with an area
50mm×40mm×1.60 mm. The designed antenna generates three resonant modes at 2.12 GHz, 6.98 GHz and 13.84
GHz respectively. The bandwidths of the antenna (-10 dB) of the three frequencies are 25.75%, 6.13% and
20.63% respectively. The return loss (S ) characteristics for the three bands are -41.95 dB, -22.68 dB and -23.15
11
dB respectively. The 3D radiation patterns of the proposed antenna are provided in the paper.
Microstrip patch antenna for pcs and wlaneSAT Journals
Abstract Due to development in wireless devices, it poses a new challenge for the design of an antenna in wireless communication. Patch antennas are well suited for various wireless application systems due to their low weight, low profile, versatility, conformability, low cost and low sensitivity to manufacturing tolerances. This paper present design, simulation of a rectangular micro strip antenna for WLAN and PCS. The aim of the work is to design reliable broadband, compact patch antenna for wireless devices. Antenna is proposed which is providing circular polarization, dual band, resonant frequencies at 1.9 GHz, 2.4 GHz. Key Words: Patch antenna, co-axial feeding, polarization, dual band, HFSS …
Design, Fabrication and Testing of Octagon Shape of Microstrip Patch Antenna ...vishant choudhary
A microstrip patch antenna consists of conducting patch of any planar and nonplanar design on one side of the geometry. In this study, Microstrip patch antennas are designed as a rectangular patch antenna form in which slots are a shape of octagon slotted in the Radiating patch. Calculating all its geometric characteristics easily make this shape usage advantageous in Microstrip patch antenna design.
The basic structure of Microstrip patch antenna is given through the rectangular patch and runs though two slotted to generate multiband characteristics. The initial dimension of the rectangular patch is taken at the resonating frequency of 2.4 GHz.The dielectric material used is epoxy /glass {FR4}.
The three designs of the Microstrip patch are the Zero slot rectangular patch antenna, Single slot rectangular patch antenna and the five slots rectangular patch antenna. These designed rectangular patch antennas have various multiband applications. All the three designs of the rectangular patch antenna are simulated from the Zeland-IE3D electromagnetic simulator. The Simulations are done for the frequency range of 0 to 6 GHz.
. These designed patch antennas suits for various commercially available frequency range applications such as for GSM (1.86 GHz), ISM band (5 GHz), Wi-Fi IEEE 802.11(2.4-2.5 GHz for 802.11 b, g, n) and (5.7-5.9 GHz for 802.11 a & n), this shows that the proposed antennas have wide application range for commercial application.
HFSS ANTENNA FOR KU BAND WITH DEFECTED GROUND STRUCTURESAKSHAT GANGWAR
A wide band Microstrip antenna is proposed for Ku band applications with defected groundd structure. A circular shape defect is integrated in the ground plane. A novel equivalent circuit model is proposed for Microstrip patch antenna with defected ground structure. Accurate design equations are presented for the wideband Microstrip antenna and theoretical analysis is done for the proposed structure. The proposed antenna has an impedance bandwidth of 56.67% ranging from 9.8 GHz to 17.55 GHz, which covers Ku-band and partially X-band. The antenna shows good radiation characteristics within the entire band, and has a gain ranging from 5 dBi to 12.08 dBi. Minimum isolation between co-polar and cross-polarization level of 20 dB and 15 dB is achieved in H-plane and E-plane respectively. The simulation of the proposed antenna is done on HFSS v.13, and measured results of fabricated antenna are in good agreement with the theoretical and simulated results
MICROSTRIP ANTENNAS FOR RFID APPLICATION USING META-MATERIALNIKITA JANJAL
Microstrip patch antennas has many advantage due to light weight and small size,
low cost but also have some disadvantage as low gain , narrow band width these are the
two important parameters. This design shows how we can increase the performance of the
patch antenna by using metamaterials or how we can improve the gain & bandwidth. Here
it provide the introduction of meta materials and microstrip patch antenna after that describe
the parameter of microstrip patch antenna which can improve by using metamaterials and
discuss future scope and application of metamaterials.[6].
The Metamaterial based antenna is designed for some improvement in the performance
of directivity gain, return loss and size of circuit area. The aim is to design and
fabricate metamaterial antenna and study the effect of antenna dimensions Length (L),Width
(W) and substrate parameters relative Dielectric constant (r), substrate thickness on Radiation
parameters of Band width. Low dielectric constant substrates are generally preferred for
maximum radiation. The conducting patch can take any shape but rectangular and circular
configurations are the most commonly used configuration.
Other configurations are complex to analyze and require heavy numerical computations.
The length of the antenna is nearly half wavelength in the dielectric; it is a very
critical parameter, which governs the resonant frequency of the antenna. In view of design,
selection of the patch width and length are the major parameters along with the feed line
depth.
The results obtained after simulation in High Frequency Structure Simulator (HFSS)
were so much effective with the considerable enhancement in the values of directivity, bandwidth.
Modelling of this omega shaped patch antenna has revealed results that are suitable
AISSMS COE, M.E. E&TC (MICROWAVE) YEAR 2014-15 14
METHODOLOGY
for RFID antenna design. It simulated a rectangular patch antenna with metamaterial included
which has much higher directivity and bandwidth that can be employed for UHF
band which is one of the pre requisite of the following era. RFID has been one of the greatest
contributions of the 21st century.
It has many implementations in different fields may be in medical, military applications,
transportation, tracking items etc. The main barrier for widespread deployment of
this technology is its cost barrier which can be resolved through use of modern technologies
for building circuits with minimal costs.
This paper presents the Microstrip patch antenna for WLAN applications with planar geometry and it consists of a defected ground (DGS), a feed, a substrate, and a patch. The design with DGS has been analyzed taking different dimensions of H Slot and achieve optimized dimensions with the help of CST, Microwave Studio commercial software for WLAN band at 5.20 GHz frequency with corresponding bandwidth of 310 MHz to optimize antenna’s properties. Results show that the final designed antenna has favorable characteristics at this frequency.
Design of Series Feed Microstrip Patch Antenna Array using HFSS Simulatoridescitation
In this paper series feed Micro strip Patch Antenna
Array are designed and analyzed for WLAN application, which
operating at S-band frequency Range of 2.4 GHz. Antenna
arrays are used to achieve higher gain. Larger the number of
antenna elements, better the gain of antenna array would be
achieved. In this paper feeding element and matching line is
used to design the 4 X 1 micro strip patch antenna array.
Micro strip line feed and matching line are used to design
series Micro strip patch antenna array. The measured
radiation pattern and Return loss of 4X1 elements antenna
array are presented. An-soft HFSS simulator is used.
Design of Rectangular Microstrip Antenna with Finite Ground Plane for WI-FI, ...ijsrd.com
Microstrip antennas are suitable for mobile and satellite communication systems. This is particularly due to their main characteristics such as low volume and weight, as well as because they are easy to fabricate and to be installed on plane and curved surfaces. Nevertheless these antennas present some disadvantages like narrow bandwidth, low power operation, and radiation loss. There are some methods such as increasing the height of the substrate, which can be used to extend the efficiency and bandwidth. In this communication design and performance of a novel rectangular with finite ground is proposed to achieve wide band performance and circular polarization. “The proposed structure consists of a rectangular patch and the ground planâ€Â
Design & Simulation of 8-Shape Slotted Microstrip Patch Antenna
This paper presents an 8-shape slotted microstrip patch antenna. The antenna is fed by microstrip
transmission line. The proposed antenna is simulated with the help of commercially available GEMS software
based on the parallel FDTD algorithm. The antenna is designed by FR4 substrate and ground plane with an area
50mm×40mm×1.60 mm. The designed antenna generates three resonant modes at 2.12 GHz, 6.98 GHz and 13.84
GHz respectively. The bandwidths of the antenna (-10 dB) of the three frequencies are 25.75%, 6.13% and
20.63% respectively. The return loss (S ) characteristics for the three bands are -41.95 dB, -22.68 dB and -23.15
11
dB respectively. The 3D radiation patterns of the proposed antenna are provided in the paper.
Microstrip patch antenna for pcs and wlaneSAT Journals
Abstract Due to development in wireless devices, it poses a new challenge for the design of an antenna in wireless communication. Patch antennas are well suited for various wireless application systems due to their low weight, low profile, versatility, conformability, low cost and low sensitivity to manufacturing tolerances. This paper present design, simulation of a rectangular micro strip antenna for WLAN and PCS. The aim of the work is to design reliable broadband, compact patch antenna for wireless devices. Antenna is proposed which is providing circular polarization, dual band, resonant frequencies at 1.9 GHz, 2.4 GHz. Key Words: Patch antenna, co-axial feeding, polarization, dual band, HFSS …
Design, Fabrication and Testing of Octagon Shape of Microstrip Patch Antenna ...vishant choudhary
A microstrip patch antenna consists of conducting patch of any planar and nonplanar design on one side of the geometry. In this study, Microstrip patch antennas are designed as a rectangular patch antenna form in which slots are a shape of octagon slotted in the Radiating patch. Calculating all its geometric characteristics easily make this shape usage advantageous in Microstrip patch antenna design.
The basic structure of Microstrip patch antenna is given through the rectangular patch and runs though two slotted to generate multiband characteristics. The initial dimension of the rectangular patch is taken at the resonating frequency of 2.4 GHz.The dielectric material used is epoxy /glass {FR4}.
The three designs of the Microstrip patch are the Zero slot rectangular patch antenna, Single slot rectangular patch antenna and the five slots rectangular patch antenna. These designed rectangular patch antennas have various multiband applications. All the three designs of the rectangular patch antenna are simulated from the Zeland-IE3D electromagnetic simulator. The Simulations are done for the frequency range of 0 to 6 GHz.
. These designed patch antennas suits for various commercially available frequency range applications such as for GSM (1.86 GHz), ISM band (5 GHz), Wi-Fi IEEE 802.11(2.4-2.5 GHz for 802.11 b, g, n) and (5.7-5.9 GHz for 802.11 a & n), this shows that the proposed antennas have wide application range for commercial application.
HFSS ANTENNA FOR KU BAND WITH DEFECTED GROUND STRUCTURESAKSHAT GANGWAR
A wide band Microstrip antenna is proposed for Ku band applications with defected groundd structure. A circular shape defect is integrated in the ground plane. A novel equivalent circuit model is proposed for Microstrip patch antenna with defected ground structure. Accurate design equations are presented for the wideband Microstrip antenna and theoretical analysis is done for the proposed structure. The proposed antenna has an impedance bandwidth of 56.67% ranging from 9.8 GHz to 17.55 GHz, which covers Ku-band and partially X-band. The antenna shows good radiation characteristics within the entire band, and has a gain ranging from 5 dBi to 12.08 dBi. Minimum isolation between co-polar and cross-polarization level of 20 dB and 15 dB is achieved in H-plane and E-plane respectively. The simulation of the proposed antenna is done on HFSS v.13, and measured results of fabricated antenna are in good agreement with the theoretical and simulated results
MICROSTRIP ANTENNAS FOR RFID APPLICATION USING META-MATERIALNIKITA JANJAL
Microstrip patch antennas has many advantage due to light weight and small size,
low cost but also have some disadvantage as low gain , narrow band width these are the
two important parameters. This design shows how we can increase the performance of the
patch antenna by using metamaterials or how we can improve the gain & bandwidth. Here
it provide the introduction of meta materials and microstrip patch antenna after that describe
the parameter of microstrip patch antenna which can improve by using metamaterials and
discuss future scope and application of metamaterials.[6].
The Metamaterial based antenna is designed for some improvement in the performance
of directivity gain, return loss and size of circuit area. The aim is to design and
fabricate metamaterial antenna and study the effect of antenna dimensions Length (L),Width
(W) and substrate parameters relative Dielectric constant (r), substrate thickness on Radiation
parameters of Band width. Low dielectric constant substrates are generally preferred for
maximum radiation. The conducting patch can take any shape but rectangular and circular
configurations are the most commonly used configuration.
Other configurations are complex to analyze and require heavy numerical computations.
The length of the antenna is nearly half wavelength in the dielectric; it is a very
critical parameter, which governs the resonant frequency of the antenna. In view of design,
selection of the patch width and length are the major parameters along with the feed line
depth.
The results obtained after simulation in High Frequency Structure Simulator (HFSS)
were so much effective with the considerable enhancement in the values of directivity, bandwidth.
Modelling of this omega shaped patch antenna has revealed results that are suitable
AISSMS COE, M.E. E&TC (MICROWAVE) YEAR 2014-15 14
METHODOLOGY
for RFID antenna design. It simulated a rectangular patch antenna with metamaterial included
which has much higher directivity and bandwidth that can be employed for UHF
band which is one of the pre requisite of the following era. RFID has been one of the greatest
contributions of the 21st century.
It has many implementations in different fields may be in medical, military applications,
transportation, tracking items etc. The main barrier for widespread deployment of
this technology is its cost barrier which can be resolved through use of modern technologies
for building circuits with minimal costs.
This paper presents the Microstrip patch antenna for WLAN applications with planar geometry and it consists of a defected ground (DGS), a feed, a substrate, and a patch. The design with DGS has been analyzed taking different dimensions of H Slot and achieve optimized dimensions with the help of CST, Microwave Studio commercial software for WLAN band at 5.20 GHz frequency with corresponding bandwidth of 310 MHz to optimize antenna’s properties. Results show that the final designed antenna has favorable characteristics at this frequency.
In general Micro strip antennas are also known as “ PRINTED ANTENNAS”
In this paper we have proposed the modified design of SIERPINSKI CARPET for various purposes in Radar and Satellite applications.
The CARPET is designed using Flame Retardant (FR4) substrate with thickness of 1.6 and dielectric constant 4.6 is used for design and fabrication purpose.
High Frequency Structural Simulator (HFSS) is used for design purpose of modified Sierpinski Carpet.
The simulated frequencies are 2.5GHZ , 5.8GHZ , 6.2GHZ and 7.4GHZ resulting in multiband operation.
Design & Study of Microstrip Patch Antenna.The project here provides a detailed study of how to design a probe-fed Square Micro-strip Patch Antenna using HFSS, v11.0 software and study the effect of antenna dimensions Length (L), and substrate parameters relative Dielectric constant (εr), substrate thickness (t) on the Radiation parameters of Bandwidth and Beam-width.
Beam-Repositioning System using Microstrip Patch Antenna Array for Wireless A...Arun Murugan
Design and experimental analysis of beam repositioning system in microstrip patch antenna array using dumbbell shaped Defected Ground Structure (DGS) for Wireless application (2.4 GHz) was carried out in this study. For the practical application of this study phase shifters are used to control the relative position of the main-lobe direction. DGS has characteristics of disturbing current distribution which leads to phase variation. In our antenna, these dumbbell shaped DGS are engraved at different positions over the ground plane to achieve phase shifting of main-beam. The parameters of antenna such as gain reflection co-efficient, bandwidth are determined and compared with the antenna without DGS. Every position at which the dumbbell shaped DGS was placed, the radiation pattern was measured and compared among them. Further, it’s also observed that simulated antenna with DGS has the Bluetooth application in ISM short-range band.
I m available at arun28murugan@gmail.com
Read the published paper here: http://ijsrd.com/Article.php?manuscript=IJSRDV6I11136
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
Our journal system primarily aims to bring out the research talent and the works done by sciaentists, academia, engineers, practitioners, scholars, post graduate students of engineering and science. This journal aims to cover the scientific research in a broader sense and not publishing a niche area of research facilitating researchers from various verticals to publish their papers. It is also aimed to provide a platform for the researchers to publish in a shorter of time, enabling them to continue further All articles published are freely available to scientific researchers in the Government agencies,educators and the general public. We are taking serious efforts to promote our journal across the globe in various ways, we are sure that our journal will act as a scientific platform for all researchers to publish their works online.
Design of a Rectangular Microstrip Patch Antenna Using Inset Feed TechniqueIOSR Journals
Abstract : Today in the world of communication systems the most widely researched area is of wireless technology and a study of communication systems is incomplete without an understanding of the operation of the antennas. In the recent years of development in communication systems a need for the development of lightweight, compact and cost-effective antennas that are capable of maintaining high performance over a wide spectrum of frequencies. This technological trend has focused much effort into the design of a Micro strip patch antenna. In this work, the simulation tool of IE3D is used to study the performance and gain of the rectangular Microstrip patch antenna. The design and simulation of patch antennas is widely used in mobile cellular phones today, and our emphasis in this work is on optimization of a 2.4 GHz rectangular Microstrip patch antenna. The return loss and the various gain plots have been studied along with the radiation patterns. Keywords: Gain, Inset feed, Patch antenna, Radiation pattern, Return Loss.
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.
EFFECT OF DIFFERENT SYMMETRIC SLITS ON MICROSTRIP PATCH ANTENNAjmicro
In this paper, a basic linearly polarised microstrip square patch antenna operating at 2.4 GHz is
proposed. We have modified the basic microstrip square patch antenna with rectangular shape slits, V
shape slits and truncated corners to achieve circular polarization. Basically we have designed five
different antennas to meet the specification. The various antennas have been simulated, fabricated and the
performance has been tested on network analyser (Agilent Technologies: N9912A, SNMY51464189,
ROHDE & SCHWARZ: ZVL13, 9 KHz to 13.6GHz,). The simulated and tested performance shows close
agreement with each other. The various structures used in this study are microstrip square patch radiator,
microstrip square patch radiator with truncated corner, rectangular slits, truncated corner with
rectangular slits and V shape slits. The experiment results show rectangular slits with truncated corners in
the main square patch and rectangular slits in the main square patch provide better performance with
respect to the antenna parameters. Designed antenna is compact and provides circular polarization at the
required operating frequency of 2.4GHz with improved bandwidth and gain. The use of circularly
polarized antennas presents an attractive solution to achieve this polarization match which allows for
more flexibility in the angle between transmitting and receiving antennas. It gives the following
advantages such as reduction in the effect of multipath reflections, decrease in transmission losses,
enhancement of weather penetration and allowing any orientation to the communication system.
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...Mohamed Hassouna
This paper present simple, slim, low cost and high gain circular patch and rectangular patch microstrip array antenna, with the details steps of design process, operate in X-band(8 GHz to 12 GHz) and it provides a mean to choose the effective one based on the performance analysis of both of these array antennas. The method of analysis, design and development of these array antennas are explained completely here and analyses are carried out for 4x2 arrays. The simulation has been performed by using commercially available antenna simulator, SONNET version V12.56, to compute the current distribution, return loss response and radiation pattern. The proposed antennas are designed by using Taconic TLY-5 dielectric substrate with permittivity, εr = 2.2 and height, h =1.588 mm. In all cases we get return losses in the range -4.96 dB to -25.21 dB at frequencies around 10 GHz. The gain of these antennas as simulated are found above 6 dB and side lobe label is maintained lower than main lobe. Operating frequency of these antennas is 10 GHz so these antennas are suitable for X-band application.
Dual band microstrip antenna with slit load design for wireless local area ne...BASIM AL-SHAMMARI
This paper presents a design of dual frequency band operation nearly square patch antenna
for IEEE 802.11b,g (2.4Ghz-2.4835GHz) and IEEE 802.11a (5.15GHz-5.25GHz)by using a patch
antenna. The patch and ground plane are separated by a substrate; the radiating patch have two pairs
of orthogonal slits cut from the edge, this antenna has wide bandwidth in the frequency band of
(WLAN) and with a return loss ≤ −10 dB from 2.4 GHz to 2.48 GHz and from 5.12 GHz to 5.32
GHz exhibits circularly polarized far-field radiation pattern. The proposed antennas have been
simulated and analyzed using method of moments (MoM) based software package Microwave
Office 2009 v9.0. The results show that the antenna has dual-band frequency operation by using slit
load.
Dual band microstrip antenna with slit load design for wireless local area ne...BASIM AL-SHAMMARI
This paper presents a design of dual frequency band operation nearly square patch antenna
for IEEE 802.11b,g (2.4Ghz-2.4835GHz) and IEEE 802.11a (5.15GHz-5.25GHz)by using a patch
antenna. The patch and ground plane are separated by a substrate; the radiating patch have two pairs
of orthogonal slits cut from the edge, this antenna has wide bandwidth in the frequency band of
(WLAN) and with a return loss ≤ −10 dB from 2.4 GHz to 2.48 GHz and from 5.12 GHz to 5.32
GHz exhibits circularly polarized far field radiation pattern. The proposed antennas have been
simulated and analyzed using method of moments (MoM) based software package Microwave
Office 2009 v9.0. The results show that the antenna has dual band frequency operation by using slit
load.
A Triple Band Bow Tie Array Antenna Using Both-sided MIC Technology IJECEIAES
A single-fed linearly polarized 2x2 microstrip bow tie array antenna is proposed. The feed network has microstrip line and slot line where microstrip-slot branch circuit is connected in parallel. The feed network of the array is designed using both-sided M IC Technology to overcome the impedance matching problem of conventional feed networks. The 2x2 half bow tie array antenna is also truncated with spur lines for optimization of antenna performance. The array antenna unit can be realized in very simple and compact structure, as all the antenna elements and the feeding circuit is arranged on a Teflon glass fiber substrate without requiring any external network. The design frequency of the proposed antenna is 5 to 8 GHz (C- Band) and the obtained peak gain is 12.41 dBi. The resultant axial ratio indicates that linear polarization is achieved.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Final project report on grocery store management system..pdf
Microstrip antenna is proposed for Ku band applications with defected groundd structure
1. ANN model and design of wide bandANN model and design of wide band
Microstrip-line-fed antenna withMicrostrip-line-fed antenna with
defected ground structure for Ku banddefected ground structure for Ku band
applicationsapplications
Presented by:Presented by:
AKSHAT GANGWAR (12EI03)AKSHAT GANGWAR (12EI03)
ASHISH MISHRA (12EI09)ASHISH MISHRA (12EI09)
2. ContentsContents
Introduction
Microstrip Antennas
Different Parameters of Microstrip AntennaDifferent Parameters of Microstrip Antenna
Different Shapes of Microstrip Patch ElementsDifferent Shapes of Microstrip Patch Elements
Project Work
Applications
Conclusion
Reference
3. IntroductionIntroduction
Antenna is one type of transducer that converts
the electrical energy into the electro-magnetic
energy in form of electromagnetic waves.
According to IEEE standards antenna is a
means of radiating and receiving radio waves, it
is a transitional structure between free space
and guided device.
4. A Micro-strip patch antenna consists
of a radiating patch on one side of a
dielectric substrate which has a
ground plane on the other side.
Microstrip antennas are widely used
due to their low profile, ease of
fabrication, and capability of
integration with other device.
Microstrip AntennasMicrostrip Antennas
5. Different Parameters of MicrostripDifferent Parameters of Microstrip
AntennaAntenna
L = Length of the Microstrip
Patch Element
W = Width of the Microstrip
Patch Element
t = Thickness of Patch
h = Height of the Dielectric
Substrate
6. Different Shapes of MicrostripDifferent Shapes of Microstrip
Patch ElementsPatch Elements
7. Project WorkProject Work
To design the microstrip
line-fed antenna with
defected ground structure
by using HFSS.
ANN modelling of designed
antenna
11. Determination Of Center FrequencyDetermination Of Center Frequency
Using S-parameterUsing S-parameter
12. ApplicationsApplications
These are used for integratedThese are used for integrated
phased array systems.phased array systems.
Used in GPS (Sat. NavigationalUsed in GPS (Sat. Navigational
System) technology.System) technology.
Mobile satellite communications,Mobile satellite communications,
the Direct Broadcast Satellitethe Direct Broadcast Satellite
(DBS) system & remote(DBS) system & remote
sensing.sensing.
Non-satellite basedNon-satellite based
applications- such as medicalapplications- such as medical
hyperthermia.hyperthermia.
13. Conclusion
The Microstrip linefed antennaThe Microstrip linefed antenna
with circular shape defect inwith circular shape defect in
the ground plane is designed.the ground plane is designed.
Accurate designing equationsAccurate designing equations
are presented for widebandare presented for wideband
Microstrip antenna for theMicrostrip antenna for the
proposed structure.proposed structure.
Ku band is a microwave frequency of 12ghz to 18 ghz
But generally we work on12ghz(receiver) to 14 ghz(transmitter)
Used for satellite communication and broad casting
General microstrip antennas has low gain and narrow band width-not suitable for ku –so defected ground
DGS is periodic/non periodic defect produced in ground of a planner transmission line which distubes the shield current distruibution in the ground plane
This disturbance will change the characteristic of transmission line like capacitance and impedence
It is like a filter- reduces the unwanted responses and mutual coupling b/w antenna array
Light weight low volume
Low fabrication cost
Supports both linear and circular polarization above all it is mechanically robust
To understand the basics behind antenna theory and microstrip patch antennas.
•A design with calculations of a patch antenna.
•Simulations of the design patch antenna.
if possible then building and testing of a patch antenna design will be carried out
