2016 IEEE Wireless Power Transfer Conference (WPTC) 2016

DOI: 10.1109/wpt.2016.7498806

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A 65-nm CMOS battery-less temperature sensor node for RF-powered wireless sensor networks

¹

,

Fortunato Dualibe

²

,

Veronique Moeyaert

³

et al.

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Cited by 4 publications

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“…Ovi senzori mogu postići potrošnju manju od 1 µW, sa greškom merenja manjom od 2°C [2][3][4]. Neke od tehnika kojim se može realizovati temperaturni senzor su korišćenje oscilatora sa linearnom temperaturnom zavisnošću [3], [5], korišćenje temperaturno zavisnih kola za generisanje temperaturno zavisnog napona ili struje [6], [7], korišćenje temperaturno zavisnih linija za kašnjenje [4], [8]. Generalno, manja potrošnja se dobija na račun manje preciznosti; senzor iz rada [6] postiže malu grešku merenja od +/-0.6°C i ima potrošnju jedanku 6 µW, dok senzor iz rada [2] ima potrošnju od 71 nW, sa greškom od +1.5°C/-1.4°C.…”

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CMOS TEMPERATURNI SENZOR MALE POTROŠNJE OD 60 nW

Bu

2024

Zbornik radova FTN

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Tema ovog rada jeste projektovanje CMOS temperaturnog senzora zasnovanog na MOSFET uređajima. Senzor je projektovan u UMC 0.18 µm tehnologiji. Projektovani senzor postiže nisku potrošnju od 60 nW i zauzima malu površinu od 0.023 mm2 sa maksimalnom greškom merenja od +1.8°C/-1.3°C u temperaturnom opsegu od 20-80°C.

“…Ovi senzori mogu postići potrošnju manju od 1 µW, sa greškom merenja manjom od 2°C [2][3][4]. Neke od tehnika kojim se može realizovati temperaturni senzor su korišćenje oscilatora sa linearnom temperaturnom zavisnošću [3], [5], korišćenje temperaturno zavisnih kola za generisanje temperaturno zavisnog napona ili struje [6], [7], korišćenje temperaturno zavisnih linija za kašnjenje [4], [8]. Generalno, manja potrošnja se dobija na račun manje preciznosti; senzor iz rada [6] postiže malu grešku merenja od +/-0.6°C i ima potrošnju jedanku 6 µW, dok senzor iz rada [2] ima potrošnju od 71 nW, sa greškom od +1.5°C/-1.4°C.…”

unclassified

CMOS TEMPERATURNI SENZOR MALE POTROŠNJE OD 60 nW

Bu

2024

Zbornik radova FTN

View full text Add to dashboard Cite

Tema ovog rada jeste projektovanje CMOS temperaturnog senzora zasnovanog na MOSFET uređajima. Senzor je projektovan u UMC 0.18 µm tehnologiji. Projektovani senzor postiže nisku potrošnju od 60 nW i zauzima malu površinu od 0.023 mm2 sa maksimalnom greškom merenja od +1.8°C/-1.3°C u temperaturnom opsegu od 20-80°C.

An RF-Powered Wireless Temperature Sensor for Harsh Environment Monitoring With Non-Intermittent Operation

¹

,

²

,

³

et al. 2018

IEEE Trans. Circuits Syst. I

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No abstract

An Accuracy-Improved and Internal Regulator-Free Temperature Sensor With a Non-Linear Current Mode Feedback Pseudo-PLL

¹

,

²

2021

IEEE Trans. Circuits Syst. II

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No abstract

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