Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates

Jayakrishnan Methapettyparambu Purushothama; Sergio Lopez-Soriano; Arnaud Vena; Brice Sorli; Etienne Perret

doi:10.23919/URSIGASS51995.2021.9560362

Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates

Jayakrishnan Methapettyparambu Purushothama, Sergio Lopez-Soriano, Arnaud Vena, Brice Sorli, Etienne Perret

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1 Citació (Scopus)

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In this article, we present the design and realization of an electronically rewritable RF encoding particle (REP) for chipless RFID applications. This (REP) resonator geometry is integrated with two conductive bridging random access memory (CBRAM) based non-volatile RF switches, and could be electronically programmed using DC pulses to any of possible four resonant states to represent two bits of information. Emerging additive manufacturing (AM) technique based thermal transfer printing is utilized for the realization of this resonator on flexible and low cost Polyethylene terephthalate (PET) substrate. At present the size of the REP is such that five such REPs could be arranged on a standard credit card size tag. Also this REP encodes the most number of bits reported among non-volatile electronically rewritable REPs for chipless RFID applications-2 bits, till date.

Idioma original	Anglès
ISBN (electrònic)	9789463968027
DOIs	https://doi.org/10.23919/URSIGASS51995.2021.9560362
Estat de la publicació	Publicada - 28 d’ag. 2021
Publicat externament	Sí

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Nom	2021 34th General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2021

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10.23919/URSIGASS51995.2021.9560362

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Purushothama, Jayakrishnan Methapettyparambu ; Lopez-Soriano, Sergio ; Vena, Arnaud et al. / Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates. 2021. (2021 34th General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2021).

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title = "Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates",

abstract = "In this article, we present the design and realization of an electronically rewritable RF encoding particle (REP) for chipless RFID applications. This (REP) resonator geometry is integrated with two conductive bridging random access memory (CBRAM) based non-volatile RF switches, and could be electronically programmed using DC pulses to any of possible four resonant states to represent two bits of information. Emerging additive manufacturing (AM) technique based thermal transfer printing is utilized for the realization of this resonator on flexible and low cost Polyethylene terephthalate (PET) substrate. At present the size of the REP is such that five such REPs could be arranged on a standard credit card size tag. Also this REP encodes the most number of bits reported among non-volatile electronically rewritable REPs for chipless RFID applications-2 bits, till date.",

author = "Purushothama, \{Jayakrishnan Methapettyparambu\} and Sergio Lopez-Soriano and Arnaud Vena and Brice Sorli and Etienne Perret",

note = "Publisher Copyright: {\textcopyright} 2021 URSI.",

year = "2021",

month = aug,

day = "28",

doi = "10.23919/URSIGASS51995.2021.9560362",

language = "English",

isbn = "9781665429955",

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Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates. / Purushothama, Jayakrishnan Methapettyparambu; Lopez-Soriano, Sergio; Vena, Arnaud et al.
2021. (2021 34th General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2021).

Producció científica: Altres contribucions

TY - GEN

T1 - Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates

AU - Purushothama, Jayakrishnan Methapettyparambu

AU - Lopez-Soriano, Sergio

AU - Vena, Arnaud

AU - Sorli, Brice

AU - Perret, Etienne

PY - 2021/8/28

Y1 - 2021/8/28

N2 - In this article, we present the design and realization of an electronically rewritable RF encoding particle (REP) for chipless RFID applications. This (REP) resonator geometry is integrated with two conductive bridging random access memory (CBRAM) based non-volatile RF switches, and could be electronically programmed using DC pulses to any of possible four resonant states to represent two bits of information. Emerging additive manufacturing (AM) technique based thermal transfer printing is utilized for the realization of this resonator on flexible and low cost Polyethylene terephthalate (PET) substrate. At present the size of the REP is such that five such REPs could be arranged on a standard credit card size tag. Also this REP encodes the most number of bits reported among non-volatile electronically rewritable REPs for chipless RFID applications-2 bits, till date.

AB - In this article, we present the design and realization of an electronically rewritable RF encoding particle (REP) for chipless RFID applications. This (REP) resonator geometry is integrated with two conductive bridging random access memory (CBRAM) based non-volatile RF switches, and could be electronically programmed using DC pulses to any of possible four resonant states to represent two bits of information. Emerging additive manufacturing (AM) technique based thermal transfer printing is utilized for the realization of this resonator on flexible and low cost Polyethylene terephthalate (PET) substrate. At present the size of the REP is such that five such REPs could be arranged on a standard credit card size tag. Also this REP encodes the most number of bits reported among non-volatile electronically rewritable REPs for chipless RFID applications-2 bits, till date.

UR - https://www.scopus.com/pages/publications/85118231530

U2 - 10.23919/URSIGASS51995.2021.9560362

DO - 10.23919/URSIGASS51995.2021.9560362

M3 - Other contribution

AN - SCOPUS:85118231530

SN - 9781665429955

T3 - 2021 34th General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2021

ER -

Application of Additive Manufacturing Based Thermal Printing Techniques for Realization of Electronically Rewritable Chipless RFID Tags on Flexible Substrates

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