Faculty Publications

Permanent URI for this communityhttps://idr.nitk.ac.in/handle/123456789/18736

Publications by NITK Faculty

Browse

Filters

2019 - 201912020 - 20214

Settings

Author: search.filters.author.Kandasamy, K.Subject: search.filters.subject.Energy harvesting

Search Results

Now showing 1 - 5 of 5
  • No Thumbnail Available
    Item
    A compact dual-band rectenna for RF energy harvesting
    (Institute of Electrical and Electronics Engineers Inc., 2019) Polaiah, G.; Kandasamy, K.; Kulkarni, M.
    In this paper, a compact dual-band rectenna operating in the frequency range of 4.8-5.2 GHz (Wi-Fi) and 7.77.9 GHz has been proposed. The antenna dual-band is achieved at a feed length of 38 mm by varying the feed length. The dual-band rectifier is designed with the help of Villard voltage doubler circuit with single T-matching network. The proposed rectenna has been implemented by integrating the rectifier to the antenna. The simulation results of antenna, rectifier, and rectenna are performed individually. The antenna is fabricated, various parameters measured, and compared with the simulated results. The maximum measured power conversion efficiency (PCE) of rectifier and rectenna of 51.7 % and 48.5% have been obtained. © 2019 IEEE.
  • No Thumbnail Available
    Item
    Triple-Band Modified Square Slotted Antenna with Enhanced Gain for RF Energy Harvesting
    (Institute of Electrical and Electronics Engineers Inc., 2021) Polaiah, G.; Kandasamy, K.; Kulkarni, M.
    A tri-band symmetrically truncated modified square slot antenna with enhanced gain integrated with a triple-band rectifier for low-power RF energy harvesting applications is presented in this paper. The antenna triple bands of 1.9 GHz, 3.1 GHz, and 6.4 GHz are obtained by coupling the slot with an optimized microstrip feed line length of 37 mm. To enhance the realized gain, a full copper patch reflector size greater than the antenna size is positioned in the bottom of the antenna at a distance of λ/4. where ‘λ’ is free space wavelength at the lowest frequency of 1.9 GHz. A single diode series-configuration-based triple-band rectifier along with an impedance matching network is designed at the aforementioned similar frequencies of the antenna. The designed prototypes are fabricated, measured the essential parameters, and compared with the simulation results. The measurement results show that the enhanced gains of the antenna are 4.8 dB, 6.7 dB, and 8.9 dB obtained at the corresponding frequencies, and the rectenna peak conversion efficiency reached 27% at an optimized values of 1 KΩ load resistance and –5 dBm input power. The proposed triple-band rectenna is found to be suitable for low-power RF energy harvesting and wireless power transfer applications. © 2021 IEEE.
  • No Thumbnail Available
    Item
    Compact uwb slotted monopole antenna with diplexer for simultaneous microwave energy harvesting and data communication applications
    (Electromagnetics Academy, 2021) Polaiah, G.; Kandasamy, K.; Kulkarni, M.
    This paper proposes a new integration of compact ultra-wideband (UWB) slotted monopole antenna with a diplexer and rectifier for simultaneous energy harvesting and data communication applications. The antenna is composed of four symmetrical circularly slotted patches, a feed line, and a ground plane. A slotline open loop resonator based diplexer is implemented to separate the required signal from the antenna without extra matching circuit. A microwave rectifier based on the voltage doubler topology is designed for RF energy harvesting. The prototypes of the proposed antenna, diplexer, and rectifier are fabricated, measured, and compared with the simulation results. The measurement results show that the fractional impedance bandwidth of proposed UWB antenna reaches 149.7% (2.1 GHz–14.6 GHz); the diplexer minimum insertion losses (|S21 |, |S31 |) are 1.37 dB and 1.42 dB at passband frequencies; the output isolation (|S23 |) is better than 30 dB from 1 GHz to 5 GHz; and the peak RF-DC conversion efficiency of the rectifier is 32.8% at an input power of ?5dBm. The overall performance of the antenna with a diplexer and rectifier is also studied, and it is found that the proposed new configuration is suitable for simultaneous microwave energy harvesting and data communication applications. © 2021, Electromagnetics Academy. All rights reserved.
  • No Thumbnail Available
    Item
    An Autonomous Frequency Reconfigurable Antenna Using Slotline Open-Loop Resonators
    (Institute of Electrical and Electronics Engineers Inc., 2021) Polaiah, G.; Kandasamy, K.; Kulkarni, M.
    This paper presents a slotline open-loop resonators based frequency reconfigurable antenna with autonomous switching of frequency bands. The dual-port slot antenna is designed to operate at 2.1 GHz when excited at port-1, and when port-2 is excited, the antenna can be reconfigured to operate at 2.85 GHz and 5.52 GHz, respectively. Port-1 is used to receive the control signal, which is converted to a DC signal using a rectifier. The rectified control signal is used to switch the operating frequency bands of the port-2. The proposed antenna configuration gives the flexibility of remote/wireless control of the operating frequency. The antenna prototype is fabricated and measured for observing the frequency switching at port-2. The measured results show that the antenna has been effectively switched from lower band frequency (2.8 GHz) to upper band frequency (5.41 GHz) when the PIN diode is ON. The proposed antenna in its final configuration can be potentially suitable for transmitter reconfigurable antenna without the need for external DC bias voltage. © 2021 Institute of Electrical and Electronics Engineers Inc.. All rights reserved.
  • No Thumbnail Available
    Item
    Compact high-efficiency pentahedron and quatrefoil shape antennas with enhanced gain for GSM1800, 3G, 4G-LTE energy harvesting applications
    (Cambridge University Press, 2021) Polaiah, G.; Kandasamy, K.; Kulkarni, M.
    In this paper, three compact, high-efficiency, gain enhanced antennas, and corresponding rectifiers have been proposed for GSM1800, 3G, and 4G-LTE energy harvesting applications. The inverted L-stub is placed on the ground plane of the monopole antenna to get the desired frequency band of GSM1800 MHz. The feed length variation method has been adopted for the slot antennas to obtain the required frequency of 3G and 4G-LTE cellular bands. The performance of antennas is analyzed with the inverted L-stub, feed length variation, and the reflector distance. The maximum gain achieved with the reflector positioned at a distance of ?/4 from the antenna backside is three times greater than the gain obtained without the reflector. The prototype antennas and rectifiers have been simulated, fabricated, measured various parameters, and compared with the simulation results. The antennas provide more than 82% radiation efficiency and an enhanced gain of greater than 5.6 dB. The peak efficiency of rectifiers of more than 30% has been achieved. The aforementioned three antennas are integrated with their corresponding rectifiers for operating at 1.8, 2.1, and 2.3 GHz frequencies. The proposed rectennas are formidably suitable for the reception of RF power from the cellular bands. © © Cambridge University Press and the European Microwave Association 2020.