Design of RF energy harvesting system for energizing low power devices
Electromagnetic energy harvesting holds a promising future for energizing low power electronic devices in wireless communication circuits. This article presents an RF energy harvesting system that can harvest energy from the ambient surroundings at the downlink radio frequency range of GSM-900 band....
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my.uniten.dspace-304372023-12-29T15:47:49Z Design of RF energy harvesting system for energizing low power devices Din N.M. Chakrabarty C.K. Bin Ismail A. Devi K.K.A. Chen W.-Y. 9335429400 6701755282 36023817800 44061220300 55715970400 Computer software Electric fields Electric power systems Electromagnetic simulation Electromagnetic waves Energy harvesting Microstrip antennas Printed circuit boards Rectennas Slot antennas Design and simulation E - shaped patch antennas Induced electric fields Partial ground plane Pi matching network Radio frequency range RF energy harvesting Wireless communication circuits Low power electronics Electromagnetic energy harvesting holds a promising future for energizing low power electronic devices in wireless communication circuits. This article presents an RF energy harvesting system that can harvest energy from the ambient surroundings at the downlink radio frequency range of GSM-900 band. The harvesting system is aimed to provide an alternative source of energy for energizing low power devices. The system design consists of three modules: a single wideband 377 ? E-shaped patch antenna, a pi matching network and a 7-stage voltage doubler circuit. These three modules were fabricated on a single printed circuit board. The antenna and Pi matching network have been optimized through electromagnetic simulation software, Agilent ADS 2009 environment. The uniqueness of the system lies in the partial ground plane and the alignment of induced electric field for maximum current flow in the antenna that maximizes the captured RF energy. The design and simulation of the voltage doubler circuit were performed using Multisim software. All the three modules were integrated and fabricated on a double sided FR 4 printed circuit board. The DC voltage obtained from the harvester system in the field test at an approximate distance of 50 m from GSM cell tower was 2.9 V. This voltage was enough to power the STLM20 temperature sensor. Final 2023-12-29T07:47:49Z 2023-12-29T07:47:49Z 2012 Article 10.2528/pier12072002 2-s2.0-84866623746 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84866623746&doi=10.2528%2fpier12072002&partnerID=40&md5=621184ae3721f01c04115b8ed538a97f https://irepository.uniten.edu.my/handle/123456789/30437 132 49 69 All Open Access; Bronze Open Access Electromagnetics Academy Scopus |
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Computer software Electric fields Electric power systems Electromagnetic simulation Electromagnetic waves Energy harvesting Microstrip antennas Printed circuit boards Rectennas Slot antennas Design and simulation E - shaped patch antennas Induced electric fields Partial ground plane Pi matching network Radio frequency range RF energy harvesting Wireless communication circuits Low power electronics |
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Computer software Electric fields Electric power systems Electromagnetic simulation Electromagnetic waves Energy harvesting Microstrip antennas Printed circuit boards Rectennas Slot antennas Design and simulation E - shaped patch antennas Induced electric fields Partial ground plane Pi matching network Radio frequency range RF energy harvesting Wireless communication circuits Low power electronics Din N.M. Chakrabarty C.K. Bin Ismail A. Devi K.K.A. Chen W.-Y. Design of RF energy harvesting system for energizing low power devices |
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Electromagnetic energy harvesting holds a promising future for energizing low power electronic devices in wireless communication circuits. This article presents an RF energy harvesting system that can harvest energy from the ambient surroundings at the downlink radio frequency range of GSM-900 band. The harvesting system is aimed to provide an alternative source of energy for energizing low power devices. The system design consists of three modules: a single wideband 377 ? E-shaped patch antenna, a pi matching network and a 7-stage voltage doubler circuit. These three modules were fabricated on a single printed circuit board. The antenna and Pi matching network have been optimized through electromagnetic simulation software, Agilent ADS 2009 environment. The uniqueness of the system lies in the partial ground plane and the alignment of induced electric field for maximum current flow in the antenna that maximizes the captured RF energy. The design and simulation of the voltage doubler circuit were performed using Multisim software. All the three modules were integrated and fabricated on a double sided FR 4 printed circuit board. The DC voltage obtained from the harvester system in the field test at an approximate distance of 50 m from GSM cell tower was 2.9 V. This voltage was enough to power the STLM20 temperature sensor. |
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9335429400 |
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9335429400 Din N.M. Chakrabarty C.K. Bin Ismail A. Devi K.K.A. Chen W.-Y. |
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Article |
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Din N.M. Chakrabarty C.K. Bin Ismail A. Devi K.K.A. Chen W.-Y. |
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Din N.M. |
title |
Design of RF energy harvesting system for energizing low power devices |
title_short |
Design of RF energy harvesting system for energizing low power devices |
title_full |
Design of RF energy harvesting system for energizing low power devices |
title_fullStr |
Design of RF energy harvesting system for energizing low power devices |
title_full_unstemmed |
Design of RF energy harvesting system for energizing low power devices |
title_sort |
design of rf energy harvesting system for energizing low power devices |
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Electromagnetics Academy |
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2023 |
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1806427904809107456 |
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