Shuchismita Pani

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This paper discusses the effect of introducing slots of different shapes and dimensions in a rectangular patch antenna to improve the bandwidth. The return loss as well as VSWR characteristics of different patch designs are discussed and compared. The reference design that is E-shaped slot patch antenna has operating frequency of 2.48 GHz. The design(More)
In this paper, the designing and performance analysis of a reconfigurable double E-shaped microstrip patch antenna is carried out. The antenna is primarily designed for its operation at a particular frequency. However, due to re-configurability obtained by inserting a narrow patch in between the two E patches, the antenna will be seen operating at another(More)
In this paper, a micro strip patch antenna has been presented displaying the ability to function in dual frequency. The proposed antenna is designed using one rectangular main microstrip patch and two slotted patches, which are connected to the main rectangular patch. This paper aims on operating the conventional microstrip rectangular patch antenna with(More)
This paper discusses the effect of different micro strip feed point to single E and double E shaped patch antenna with a wide operational bandwidth for wireless and satellite communication. The return loss and radiation pattern of different patch designs are discussed. The single E patch antenna operates from 2.8GHz-11GHz with gain 9.6dB-14.5dB. The double(More)
An innovative and compact microstrip patch array antenna with rectangular slots for microwave radio relay application is proposed. The designed antenna is applicable in c-band. The antenna is designed on FR4 epoxy substrate with inset feed. The proposed single patch microstip antenna has a return loss (S11), gain and VSWR of −18.30, 3.07 dB and 2.24 at 6.18(More)
In this paper, a multi-band micro-strip patch antenna with uneven parallel slots and optimized gain is proposed. Two types of substrate such as air and FR4 are used in the design. A detail parametric study of the patch antenna are carried out with air substrate. Co-axial feeding is used for optimal antenna characteristics. Consequently air substrate is(More)
A novel compact rectangular patch antenna with split ring resonator (SRR) and T stub loading is proposed for C-band applications. The SRR is used to have the advantage of optimized mutual coupling between the antennas. Coaxial feed is used in this design. The antenna is designed on FR4 epoxy substrate with the dimensions of 60×60×1.6(More)
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