Highly Integrable Paper-Based Harmonic Transponder for Low-Power and Long-Range IoT Applications

Palazzi, Valentina; Alimenti, F.; Kalialakis, Christos; Mezzanotte, P.; Georgiadis, Apostolos; Roselli, L.

doi:10.1109/lawp.2017.2768383

Cited by 37 publications

(5 citation statements)

References 10 publications

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“…where P f 0 avs is the available source power at f 0 , and P 2 f 0 load is the output harmonic power delivered to the load. To extend the read-out distance of the system, the frequency doubler is generally designed to have a low C l for low available input power (P f 0 avs < −20 dBm) [45], [46]. In the schematic in Fig.…”

Section: B Harmonic Backscatteringmentioning

confidence: 99%

“…11 [45]. The transponder is dual-layer, it is targeted for a fundamental frequency f 0 = 1.2 GHz, and it is manufactured on a paper substrate by a technology we called "copper adhesive laminate" (parameters of the equivalent composite substrate, including both paper and the glue layers interposed between each copper layer and paper: dielectric constant: r = 2.55, loss tangent: tan δ = 0.05, substrate thickness: h = 0.3 mm, trace conductivity: σ cu = 5.810 7 S/m), described in detail in [44].…”

Section: Harmonic Tags For Electronic Article Surveillancementioning

confidence: 99%

“…In "meas 1," the tag is oriented with its f 0 antenna in horizontal polarization, whereas in "meas 2," the tag is rotated 90 • (f 0 antenna in vertical polarization). From[45].…”

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confidence: 99%

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Innovative RFID Sensors for Internet of Things Applications

et al. 2021

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Radio-Frequency IDentification (RFID) devices and sensors are among the main innovations of the last years, with an enormous impact on the Internet of Things (IoT) physical communication layer as well as on logistics and robotics. The aim of the present paper is to review the main technologies available for RFID sensors, and to identify the corresponding state-of-the-art when these technologies are applied to realistic IoT scenarios. Firstly, the concepts of radio bascattering and harmonic bascattering are analyzed, highlighting the pros and cons of each approach. Then, state-of-the-art solutions are reported, and the performance of each of them are discussed, to provide an overview of the potential of RFID-based sensing in different scenarios.

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Section: B Harmonic Backscatteringmentioning

confidence: 99%

Section: Harmonic Tags For Electronic Article Surveillancementioning

confidence: 99%

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Innovative RFID Sensors for Internet of Things Applications

et al. 2021

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“…1) [18], [19]. Thanks to the frequency orthogonality between the launched and backscattered signals, the harmonic sensor system can remarkably suppress electromagnetic interferences, such as crosstalk and clutter [20], [21]. According to this principle, Huang et al have demonstrated a passive harmonic sensor for liquid sensing in healthcare applications.…”

Section: Introductionmentioning

confidence: 99%

A Zero-Power Ubiquitous Wireless Liquid-Level Sensor Based on Microfluidic-Integrated Microstrip Antenna

Zhu

Alsaab

Cheng

et al. 2020

IEEE J. Radio Freq. Identif.

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Harmonic transponder sensors, receiving radiofrequency (RF) signal and converting it to a modulated second harmonic, have been demonstrated to be effective for signal interrogation in environments with strong clutters. Here, we propose a compact dual-resonance microstrip antenna consisting of an elliptical patch loaded with shorting pins. Such an antenna utilizes the TM e110 resonant mode to intercept the perpendicularly-polarized fundamental tone (2.86 GHz) and uses the TM o110 resonant mode to retransmits the parallelly-polarized second harmonic (5.72 GHz). Moreover, we have developed a harmonic-based wireless liquid sensor comprising the proposed antenna and a micromachined liquid channel. Our measurement results show that even in the noisy environment, the second harmonic strength can precisely indicate the dielectric property of liquid filled in the microfluidic tank (e.g., acetone-water mixtures with various concentrations). However, a similar setup without frequency and polarization modulations (i.e., linear and passive backscatter tag) fails to provide a sensitive and quantitative measurement of liquid property. The proposed low-profile dual-resonance antenna with sensing capability will pave the way for the development of harmonic sensors and nonlinear radio-frequency identification (RFID) tags.

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“…reader sends a signal at the fundamental frequency f 0 to interrogate a tag that reflects and modulates a higher harmonic (e.g. : 2f 0 ) detectable by the reader [1]. The transponder, therefore, requires a dual-band antenna and a non-linear device, such as a diode.…”

Section: Introductionmentioning

confidence: 99%

The Harmonic Tunneling Tag: a Dual-Band Approach to Backscattering Communications

Amato

Hemour

2019

2019 IEEE International Conference on RFID Technology and Applications (RFID-TA)

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As an answer to the self-interference problem inherent to RFID systems, this work proposes a dual-band backscattering architecture. A dual-band RFID system architecture can bring several advantages to the RFID technology. In fact, a dual-band reader could operate without any self-interference cancellation circuit that currently limits its sensitivity; moreover, its dual-band architecture would be compatible with software defined radio-based cellphones. Dual-band readers will need to talk with low-powered dual-band tags that up-convert, modulate, and backscatter the impinging signal from the fundamental frequency to the 2 nd harmonic without weakening the communication link. This article reports on the UHF dual-band Harmonic Tunneling Tag capable of backscattering and amplifying a 900 MHz signal when receiving an input carrier at 450 MHz. The Harmonic Tunneling Tag provides positive conversion gains (+7 dB) that improve the communication link by a factor of 2 and operates under a very low bias voltage of 0.16 V.

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Highly Integrable Paper-Based Harmonic Transponder for Low-Power and Long-Range IoT Applications

Cited by 37 publications

References 10 publications

Innovative RFID Sensors for Internet of Things Applications

Innovative RFID Sensors for Internet of Things Applications

A Zero-Power Ubiquitous Wireless Liquid-Level Sensor Based on Microfluidic-Integrated Microstrip Antenna

The Harmonic Tunneling Tag: a Dual-Band Approach to Backscattering Communications

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