Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting

Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting

This paper presents two Internal Threshold Voltage (IVC) cancellation schemes for rectifiers used in RF energy harvesting: N-stage IVC based rectifier and IVC based rectifier with Self Vth Cancellation (SVC). The presented rectifiers reduce the threshold voltage of the transistors and deliver a high...

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Bibliographic Details
Main Authors: Munir A. Al-Absi, Sami R. Al-Batati
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
RF energy harvesting
threshold compensation
internal Vth cancellation
CMOS rectifier
Online Access:https://ieeexplore.ieee.org/document/9032090/
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spelling doaj-a7897b0d2a7447898684c1a97d6aefc72021-03-30T02:12:44ZengIEEEIEEE Access2169-35362020-01-018519765198010.1109/ACCESS.2020.29800809032090Hybrid Internal Vth Cancellation Rectifiers for RF Energy HarvestingMunir A. Al-Absi0https://orcid.org/0000-0002-5489-958XSami R. Al-Batati1Department of Electrical Engineering, King Fahd University of Petroleum and Minerals, Dhahran, Saudi ArabiaDepartment of Electrical Engineering, King Fahd University of Petroleum and Minerals, Dhahran, Saudi ArabiaThis paper presents two Internal Threshold Voltage (IVC) cancellation schemes for rectifiers used in RF energy harvesting: N-stage IVC based rectifier and IVC based rectifier with Self Vth Cancellation (SVC). The presented rectifiers reduce the threshold voltage of the transistors and deliver a high-rectified output voltage at an input frequency of 402MHz. Tanner TSPICE simulation tool in 0.18μm TSMC CMOS technology is used to confirm the functionality of the proposed designs. Simulation results show that the proposed design is superior to the previously published works in reducing the MOSFET threshold voltage and delivering a rectified high output voltage at an input voltage of 200mV and frequency of 402 MHz.https://ieeexplore.ieee.org/document/9032090/RF energy harvestingthreshold compensationinternal Vth cancellationCMOS rectifier
collection DOAJ
language English
format Article
sources DOAJ
author Munir A. Al-Absi
Sami R. Al-Batati
spellingShingle Munir A. Al-Absi
Sami R. Al-Batati
Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
IEEE Access
RF energy harvesting
threshold compensation
internal Vth cancellation
CMOS rectifier
author_facet Munir A. Al-Absi
Sami R. Al-Batati
author_sort Munir A. Al-Absi
title Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
title_short Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
title_full Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
title_fullStr Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
title_full_unstemmed Hybrid Internal Vth Cancellation Rectifiers for RF Energy Harvesting
title_sort hybrid internal vth cancellation rectifiers for rf energy harvesting
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description This paper presents two Internal Threshold Voltage (IVC) cancellation schemes for rectifiers used in RF energy harvesting: N-stage IVC based rectifier and IVC based rectifier with Self Vth Cancellation (SVC). The presented rectifiers reduce the threshold voltage of the transistors and deliver a high-rectified output voltage at an input frequency of 402MHz. Tanner TSPICE simulation tool in 0.18μm TSMC CMOS technology is used to confirm the functionality of the proposed designs. Simulation results show that the proposed design is superior to the previously published works in reducing the MOSFET threshold voltage and delivering a rectified high output voltage at an input voltage of 200mV and frequency of 402 MHz.
topic RF energy harvesting
threshold compensation
internal Vth cancellation
CMOS rectifier
url https://ieeexplore.ieee.org/document/9032090/
work_keys_str_mv AT muniraalabsi hybridinternalvthcancellationrectifiersforrfenergyharvesting
AT samiralbatati hybridinternalvthcancellationrectifiersforrfenergyharvesting
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