All-digital interface ASIC for a QCM-based electronic nose

“…11(b), by evaluating (7), (8) and (9) with the following variables: , , , , , , , and . The fitting curve predicts the oscillator phase noise with few dB lower values than the measurements.…”

“…In many of the application areas foreseen, there exists a need for detection systems that are compact, portable and low-power, requirements that analytical detection instruments based on chromatography are currently not capable to fulfill. Additionally, sensing elements employed in existing e-nose systems, commonly based on either metal oxide technology [6] or transduction of polymer-absorption of volatiles such as quartz crystal micro-balances [7], [8], conductive polymer [9], [11], are either not sufficiently sensitive, stable and/or not sufficiently scalable and power efficient to be deployed in large arrays or in portable systems.…”

Power-Efficient Oscillator-Based Readout Circuit for Multichannel Resonant Volatile Sensors

“…11(b), by evaluating (7), (8) and (9) with the following variables: , , , , , , , and . The fitting curve predicts the oscillator phase noise with few dB lower values than the measurements.…”

“…In many of the application areas foreseen, there exists a need for detection systems that are compact, portable and low-power, requirements that analytical detection instruments based on chromatography are currently not capable to fulfill. Additionally, sensing elements employed in existing e-nose systems, commonly based on either metal oxide technology [6] or transduction of polymer-absorption of volatiles such as quartz crystal micro-balances [7], [8], conductive polymer [9], [11], are either not sufficiently sensitive, stable and/or not sufficiently scalable and power efficient to be deployed in large arrays or in portable systems.…”

Power-Efficient Oscillator-Based Readout Circuit for Multichannel Resonant Volatile Sensors

“…The bio-detection or measure of nano-parameters represent an important way in scientific investigations and is applied in various domains: ADN Hybridizing, protein-protein interaction, biosensors development, corrosion and absorption studies, electrochemical deposition, dithienothiophene-based polymers [1][2][3][4][5][6]. Several types of sensors are used; the particularity of piezoelectric sensors is to traduce the variation of mass to the variation of resonant frequency with high sensitivity [7].…”

Multiplexed Frequency Spectrum Analyzer Instrumentation for the Characterization of Multiple QCM-Based Biosensors

“…The mechanism by which the charge transfer is produced in a conductive sensitive layer in contact with an electrode or an electrolyte has been a topic of study by several authors, due to its important applications in industrial, environmental and biological process such as: metal electrodepositing [Bruckenstein85], corrosion sensors [Hager86], electrochemical process characterisation which govern alkaline batteries [Varela00], study of polymers behaviour in presence of antibodies [AlSana03] or for making devices that emulate certain corporal senses function like smell [Beeley04], among others.…”

“…• Explore the possibility to create some devices that emulate certain corporal senses function like smell [Beeley04] to be used in these inhospitable conditions for human beings in which some measurement is required.…”

Instrumental techniques for improving the measurements based on Quartz Crystal Microbalances (Técnicas instrumentales para mejorar las mediciones con microbalanzas de cuarzo)