sharanbasappa belamgi | Jadavpur University (original) (raw)
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Papers by sharanbasappa belamgi
International Journal of Recent Technology and Engineering (IJRTE), 2019
This paper presents a novel approach to realize a broadband full wave rectenna for wireless energ... more This paper presents a novel approach to realize a broadband full wave rectenna for wireless energy transfer at 2.45 GHz ISM band. The full wave rectenna structure is designed using a center shorted dual edge feed microstrip patch antenna and two Schottky diodes. This antenna is inherently broadband in nature and can provide differential voltage at its two feed points. An optimized full wave rectenna is fabricated and tested. The proposed rectenna provides more conversion efficiency than a rectenna with similar antenna and conventional half wave rectifier.
Proceedings of the 2015 Third International Conference on Computer, Communication, Control and Information Technology (C3IT), 2015
International Conference on Electronics, Communication and Instrumentation (ICECI), 2014
ABSTRACT
International Conference on Electronics, Communication and Instrumentation (ICECI), 2014
ABSTRACT
Electronics, Communication and Instrumentation (ICECI), 2014
A suspended planar patch antenna is presented for ISM band (2.4-2.485) GHz applications. This ant... more A suspended planar patch antenna is presented for ISM band (2.4-2.485) GHz applications. This antenna can be used for wireless energy transfer as proposed in this paper. The radiating patch of the suspended patch antenna is placed over a ground plane at a height and is fed by a coaxial probe. The dielectric medium between the radiating planar patch and the ground plane is air. Suspended planar patch antenna design equations are validated by simulated and experimental results. The radiation patterns are measured in E-plane and H-plane. The analysis is performed using Method of Moments (MOM) simulation software (Zeland- IE3D version 12.0) and the experimental results are obtained from the network analyzer and radiation measurements are done in anechoic chamber. The proposed antenna provides S11 of -45dB, gain of 9.78 dBi with radiation efficiency of 99% at 2.45GHz resonant frequency. Wireless energy transfer is verified by measuring transmitted and received power using power meter wit...
International Journal of Recent Technology and Engineering (IJRTE), 2019
This paper presents a novel approach to realize a broadband full wave rectenna for wireless energ... more This paper presents a novel approach to realize a broadband full wave rectenna for wireless energy transfer at 2.45 GHz ISM band. The full wave rectenna structure is designed using a center shorted dual edge feed microstrip patch antenna and two Schottky diodes. This antenna is inherently broadband in nature and can provide differential voltage at its two feed points. An optimized full wave rectenna is fabricated and tested. The proposed rectenna provides more conversion efficiency than a rectenna with similar antenna and conventional half wave rectifier.
Proceedings of the 2015 Third International Conference on Computer, Communication, Control and Information Technology (C3IT), 2015
International Conference on Electronics, Communication and Instrumentation (ICECI), 2014
ABSTRACT
International Conference on Electronics, Communication and Instrumentation (ICECI), 2014
ABSTRACT
Electronics, Communication and Instrumentation (ICECI), 2014
A suspended planar patch antenna is presented for ISM band (2.4-2.485) GHz applications. This ant... more A suspended planar patch antenna is presented for ISM band (2.4-2.485) GHz applications. This antenna can be used for wireless energy transfer as proposed in this paper. The radiating patch of the suspended patch antenna is placed over a ground plane at a height and is fed by a coaxial probe. The dielectric medium between the radiating planar patch and the ground plane is air. Suspended planar patch antenna design equations are validated by simulated and experimental results. The radiation patterns are measured in E-plane and H-plane. The analysis is performed using Method of Moments (MOM) simulation software (Zeland- IE3D version 12.0) and the experimental results are obtained from the network analyzer and radiation measurements are done in anechoic chamber. The proposed antenna provides S11 of -45dB, gain of 9.78 dBi with radiation efficiency of 99% at 2.45GHz resonant frequency. Wireless energy transfer is verified by measuring transmitted and received power using power meter wit...