Yadhamuri Vinitha Reddy

Bio: Yadhamuri Vinitha Reddy is an academic researcher. The author has contributed to research in topics: Mobile telephony. The author has co-authored 1 publications.

Design and Performance Analysis of Rectangular Microstrip Patch Antenna for Wireless Applications

Abstract: A rectangular microstrip patch antenna (RMPA) is designed and analyzed in this paper. FR-4 is used as a substrate material, whose dielectric permittivity is 4.3. This antenna is designed and simulated using CST software. Return loss, VSWR, directive gain, and bandwidth are obtained from the given simulation. The results after simulation are return loss, VSWR, directive gain, and bandwidth of -55.7 dB, 1.0032, 6.81 dBi, and 110 MHz, respectively. The main objective of that paper was to increase return loss, bring the VSWR closer to 1, and increase directive gain. This antenna can be used in radars, mobile phones, and wireless LAN applications.

Design and Simulation of Microstrip Patch Antenna for Wireless Communication Systems

Abstract: In this age of information technology, wireless communication is becoming more popular every day. And these wireless applications have some effect on the antenna. In this paper, a microstrip patch antenna design, simulation, and analysis are done. And to make this design, Rogger RT/Duroid 5880, whose dielectric permittivity is 4.3, has been used as the substrate material. Besides, antenna thickness and tangent loss are 0.1 mm and 0.035, respectively. After simulation, the antenna has a return loss VSWR, directivity gain, and bandwidth are -19.89 dB, 1.22, 6.73 dBi, and 128.9 MHz, respectively. The motive of this antenna is to reduce the S-parameter and get a standard VSWR, which will have a value of less than two or close to one, as well as to improve the antenna's directivity gain and give it a good bandwidth. This antenna can be used in radars, mobile phones, wireless LANs, and other wireless applications.

Design and Simulation of Microstrip Patch Antenna for Wireless Communication Systems

Abstract: In this age of information technology, wireless communication is becoming more popular every day. And these wireless applications have some effect on the antenna. In this paper, a microstrip patch antenna design, simulation, and analysis are done. And to make this design, Rogger RT/Duroid 5880, whose dielectric permittivity is 4.3, has been used as the substrate material. Besides, antenna thickness and tangent loss are 0.1 mm and 0.035, respectively. After simulation, the antenna has a return loss VSWR, directivity gain, and bandwidth are -19.89 dB, 1.22, 6.73 dBi, and 128.9 MHz, respectively. The motive of this antenna is to reduce the S-parameter and get a standard VSWR, which will have a value of less than two or close to one, as well as to improve the antenna's directivity gain and give it a good bandwidth. This antenna can be used in radars, mobile phones, wireless LANs, and other wireless applications.

Design and Performance Analysis of Rectangular Microstrip Patch Antenna for Wireless Applications

Abstract: A rectangular microstrip patch antenna (RMPA) is designed and analyzed in this paper. FR-4 is used as a substrate material, whose dielectric permittivity is 4.3. This antenna is designed and simulated using CST software. Return loss, VSWR, directive gain, and bandwidth are obtained from the given simulation. The results after simulation are return loss, VSWR, directive gain, and bandwidth of -55.7 dB, 1.0032, 6.81 dBi, and 110 MHz, respectively. The main objective of that paper was to increase return loss, bring the VSWR closer to 1, and increase directive gain. This antenna can be used in radars, mobile phones, and wireless LAN applications.

Design and Performance Analysis of S-Band Microstrip Patch Antenna for Wireless Applications

Abstract: The research article looked at the microstrip patch antenna, which was made for wireless applications. FR-4 (lossy) has been used as a substrate material, whose dielectric permittivity is 4.3. This paper plans a new type of antenna that can be used in wireless systems like radars, cell phones, and wireless local area networks (LANs). This antenna aims to achieve a standard VSWR while minimizing return loss. Software from the Computer Simulation Technology (CST) Suite Studio 2019 version was used to run the simulation and get the right amount of gain, VSWR, and bandwidth. After simulation, antenna return loss, VSWR, directive gain, and bandwidth are found to be -17.264, 1.3176, 6.94 dBi, and 116.6 MHz, respectively.