Chip-Less and Battery-Less Subharmonic Tags for Wireless Sensing with Parametrically Enhanced Sensitivities and Dynamic Ranges

Abstract: Massive deployments of wireless sensor nodes (WSNs) that continuously detect physical, biological or chemical parameters are needed to truly benefit from the unprecedented possibilities opened by the Internet-of-Things (IoT). Just recently, new sensors with higher sensitivities have been demonstrated by leveraging advanced on-chip designs and microfabrication processes. Yet, WSNs using such sensors require energy to transmit the sensed information. Consequently, they either contain batteries that need to be pe… Show more

“…Driven by the need of developing a new class of passive open-loop phase noise cleaners, known as parametric filters [21], [22], our group has recently investigated the stability of large-signal periodic regimes in diode-based 2:1 parametric frequency dividers (PFDs [23]), even describing a new design methodology to achieve exceptionally low parametric power thresholds (P th ) in lumped or distributed on-board PFD implementations. By further exploiting the outcomes of this investigation, we recently developed a new battery-less, chip-less and harvester-free sensor tag [24], referred to as subharmonic tag (SubHT), utilizing a 860 MHz diode-based parametric circuit made of lumped off-the-shelf components assembled on a printed substrate. Through the SubHT, we demonstrated that the proper engineering of the dynamics of diode-based parametric circuits permits to achieve extraordinarily low P th values (-18 dBm for an input frequency of 860 MHz) approaching the power threshold attainable by SoA ferritebased FSLs, even when relying on low quality factor (<80) components and on packaged diodes with junction capacitance in the pF -range.…”

Reflective Parametric Frequency Selective Limiters with sub-dB Loss and $μ$Watts Power Thresholds

“…Driven by the need of developing a new class of passive open-loop phase noise cleaners, known as parametric filters [21], [22], our group has recently investigated the stability of large-signal periodic regimes in diode-based 2:1 parametric frequency dividers (PFDs [23]), even describing a new design methodology to achieve exceptionally low parametric power thresholds (P th ) in lumped or distributed on-board PFD implementations. By further exploiting the outcomes of this investigation, we recently developed a new battery-less, chip-less and harvester-free sensor tag [24], referred to as subharmonic tag (SubHT), utilizing a 860 MHz diode-based parametric circuit made of lumped off-the-shelf components assembled on a printed substrate. Through the SubHT, we demonstrated that the proper engineering of the dynamics of diode-based parametric circuits permits to achieve extraordinarily low P th values (-18 dBm for an input frequency of 860 MHz) approaching the power threshold attainable by SoA ferritebased FSLs, even when relying on low quality factor (<80) components and on packaged diodes with junction capacitance in the pF -range.…”

Reflective Parametric Frequency Selective Limiters with sub-dB Loss and $μ$Watts Power Thresholds