Dimension Analysis of Microstrip Patch Antenna for Different Substrates
| Authors | P.K. Biju1, R. Kumudham1, A. Priya2, S. Ramesh3 |
| Affiliations |
1Department of ECE, Vels Institute of Science, Technology Chennai, India 2Department of Electronics and Communication Engineering, B.S. Abdur Rahman Crescent Institute of Science and Technology, Chennai, India 3Department of Electronics and Communication Engineering, Valliammai Engineering College, Chennai, India |
| Е-mail | kumudham.se@vistas.ac.in |
| Issue | Volume 18, Year 2026, Number 1 |
| Dates | Received 05 December 2025; revised manuscript received 19 February 2026; published online 25 February 2026 |
| Citation | P.K. Biju, R. Kumudham, [footnoteRef:], и др., J. Nano- Electron. Phys. 18 No 1, 01022 (2026) |
| DOI | https://doi.org/10.21272/jnep.18(1).01022 |
| PACS Number(s) | 84.40.Ba |
| Keywords | MPA (11) , Dimension analysis, PTFE, FR4 (3) , RT/duroid. |
| Annotation |
This research presents a comparative analysis of rectangular Microstrip Patch Antenna (MPA) designs using python program for various substrates. Focusing on resonant frequencies from 1 GHz to 5 GHz, it evaluates antennas with 1.6 mm and 0.8 mm thick substrates. A Python program computes antenna dimensions (length and width) for given resonant frequencies, substrate permittivity, and thickness. The program gives a list of tables with design parameter for a rage of resonant frequencies, different substrate and thickness of substrate. Simulations in HFSS validate these results by comparing resonant frequency graphs. This research paper examines how substrate properties – length, width, thickness, and permittivity affect resonance. Six substrates (FR-4, Benzo, RT-Duroid, Nylon, Duroid, and Form) are analyzed to highlight their impact on performance. This readily available list of table helps to design a microstrp patch antenna for any resonance frequency, substate permittivity and thickness, very easily. Features of Python program can be utilized to achieve this design of microstrip patch antenna in a convenient and easily method for this dimension analysis. By changing the range of resonance frequency, it is easy to implement microstrip antenna for any wireless communication applications. |
|
List of References |
Other articles from this number
1) Design and Implementation of a Compact Wideband Wearable Antenna for ISM/WiMAX/WiFi/5G Band Body-Centric Wireless Applications [01001-1-01001-12]2) Formation of the (Ti, V)(C, N) Multicomponent Solid Solution by Mechanical Alloying of the TiPT-4–VN-CGr Powder Blend [01002-1-01002-7]
3) Electronic Structure of ZnTS Crystals Modified by the Zn-S Swap Disorder [01003-1-01003-6]
4) Mathematical Modeling of Permissible Thermoelastic Stress Distribution in Optical Elements of Electrical Power Systems [01004-1-01004-6]
5) Influence of Calcination Temperature on Optical Properties of AlSbO4 Alloy Nanoparticles Synthesized by Sol-Gel Method [01005-1-01005-4]
6) The Electromagnetic Shielding Effectiveness of Polypropylene Nanocomposite Filled with Graphene [01006-1-01006-5]
7) Effect of Synthesis Temperature on Optical Performance of ZnO-TA Nanostructures for Optoelectronic Applications [01007-1-01007-9]
8) Multitaper Spatial Frequency Domain Signal Noise Reduction in Magnetic Resonance Imaging [01008-1-01008-6]
9) Multi-Task Neural Network for Medical Diagnosis Targeted for FPGA Deployment [01009-1-01009-6]
10) Design and Development of an Electric Current Sensor to Monitor and Automate the Cleaning of Photovoltaic Power Plants [01010-1-01010-5]
11) An ab initio-Based Computational Scheme for Description the Kinetic Properties of Wurtzite Zinc Oxide [01011-1-01011-5]
12) Structural and Chemical Features of Epoxy Composites Filled with Biogenic Lignocellulosic Filler Obtained from Agro-Industrial Waste [01012-1-01012-7]
13) Electrical Conductivity of Thin Films of Copper-Nickel Alloys [01013-1-01013-7]
14) Linear Antenna Array Design with Dolph-Chebyshev Method for High Gain and Side-Lobe Reduction in Wireless Systems [01014-1-01014-4]
15) A Haptic Feedback Glove Based on Arduino for the Welfare of Unsighted People [01015-1-01015-4]
16) Rotman Lens-Based Multibeam Planar Antenna System for UWB IoT Applications [01016-1-01016-5]
17) A Co-relative study on DDR Diamond and Si-based IMPATTs in Terahertz Regime [01017-1-01017-4]
18) Development of Compact, Low-Power CMOS Toggle Flip-Flops for High-Speed Applications [01018-1-01018-5]
19) Proximity Coupled Dual Antenna Design For X Band Applications [01019-1-01019-5]
20) Design and Analysis of an Energy-Efficient Voltage Level Shifter for Low-Power Applications [01020-1-01020-5]
21) Influence of Nano-Carbon Additives on the Mechanical Properties of Cementitious Composites: A Study on Static and Dynamic Modulus Variations [01021-1-01021-5]
22) An Optimal Antenna Design for Smart Traffic Management System Using CST [01023-1-01023-4]
23) Analysis of 1 х 4 Array Patch Antenna for 5G Communication [01024-1-01024-4]
24) Inflation in Creation Field Cosmology with Bulk Viscosity and Variable Cosmological Constant [01025-1-01025-5]
25) Oscillations in GaN Diode with 2D-h-BN – Layer [01026-1-01026-5]
26) Conditions for Pulse Gas-Discharge Synthesis of Thin Films with High Ion Conductivity [01027-1-01027-6]
27) Application of Ensemble Machine Learning Algorithms for Modeling the Thermomechanical Properties of Nano-Filled Epoxy Composites [01028-1-01028-10]
28) Enhanced Solar Cell Performance Using Graphene/TiO2 Composite as Electron Transport Layer [01029-1-01029-7]
29) Study of Pore Distribution in Activated Carbon by Low-Temperature Nitrogen Adsorption [01030-1-01030-9]
30) Features of Imparting Antistatic Properties to Epoxy Systems Using Carbon Nanotubes [01031-1-01031-4]
31) Effect of Current Density on the Chemical Composition of ZnS Nanoparticles in the Absence and Presence of the ATLAS FLUKA Surfactant [01032-1-01032-6]
32) A Decagonal Quad-Band Slitted Microstrip Antenna for 5G Wireless Networks [01033-1-01033-5]
33) Impact of Active and Passive Cooling on Photovoltaic Modules Performance’s [01034-1-01034-5]
34) Numerical Investigation of Electrical Characteristics in Cross-Linked Polyethylene for PV Applications [01035-1-01035-4]
35) Transient Analysis and Comparison of Various Voltage and Current Mode Sense Amplifiers [01036-1-01036-5]
