Wireless communication plays a major role in technology transformation into new dimensions where it require most efficient transreceivers which are basically known as antennas for establishing communication between nodes to node.There are different types of antennas used for regenerating different frequencies for different applications. In satellite communication, in air and space crafts or in missile applications where mass, heaviness, volume,budget, performance etc. are the main requirements to design antennas. Such requirements are fulfilled by the Microstrip Antennas . Microstrip Antennas are designed to meet these specifications and hence are widely used in many applications such as global system for mobile communication (GSM), the global positioning system (GPS), personal communication,etc.. A compact microstrip feed with triple band circular monopole antenna which can operate frequencies ranging over GSM (1.78 to 1.82GHz),Bluetooth (2.4 to2.48GHz) and Ultra wideband (UWB:3.10 to 10.6GHz) bands are designed and investigated for wireless applications.By a generalized circular radiating monopole with destructive ground plane,the UWB frequency operation is achieved. Further proceedings, the central part of the radiating antenna is removed by slotting it and then etching a half wavelength circular arc from the radiating patch antenna to achieve a dual band frequency operation over Bluetooth and UWB.The triple band frequency operation is realized by embedding quarter wavelength parasitic element/strip resonating at 1.8GHz placed at the slotted central position in the radiating patch antenna.In this project triple band circular monopole antenna is designed and simulated using electromagnetic simulation software HFSS(15.0).The implementation of the proposed antenna is done on FR4 dielectric substrate having a dielectric constant of 4.4 and loss tangent of 0.02. The antenna covers the three bands of operation with reflective coefficient <-10dB.The antenna also exhibits stable radiation patterns for entire UWB. As a result,integrated lower frequency bands are achieved.
An Integrated Design of GSM and Bluetooth Ultra Wide-Band (UWB) Monopole Antenna for Wireless applications
