By Andrea De Marcellis
This booklet describes novel circuit and approach options for the layout of analog digital interfaces for resistive, capacitive and temperature sensors, additionally displaying a large edition diversity, with the purpose to offer a whole assessment of the 1st analog front-ends. After an outline of the most varieties of sensors and their definitions, the ebook offers novel digital circuits, such a lot of which don't require any preliminary calibration, additionally designed with analog microelectronic thoughts, at transistor point in a customary CMOS built-in expertise. those recommendations make the most of either AC and DC excitation voltages for the hired sensor and are built either in Voltage-Mode technique (which considers using Operational Amplifiers or Operational Transconductance Amplifiers because the major energetic blocks) and in Current-Mode strategy (using the second one new release present Conveyor because the major, lively device), in addition to with Low Voltage Low energy features while designed for moveable functions and instrumentations.
The interfaces defined during this booklet should be fabricated simply either as prototype forums, for a quick characterization (simply applied by means of scholars and technicians) and as built-in circuits, utilizing sleek layout concepts.
- Provides an intensive creation and outline of sensors and easy resistive, capacitive and temperature sensor interfacing including their major features and parameter definitions;
- Includes a whole evaluate of the 1st analog front-ends, particularly for wide-range resistive and capacitive actual and chemical sensors;
- Describes interfaces which are effortless to appreciate and enforce either with discrete parts for PCB fabrication and in a typical CMOS built-in technology.
Read or Download Analog Circuits and Systems for Voltage-Mode and Current-Mode Sensor Interfacing Applications PDF
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E. Pratsinis, High performance porous metal oxide sensors via single step fabrication, in Proceedings of Eurosensors, Barcelona, Sept 2005 81. A. Depari, G. Faglia, A. Flammini, A. Fort, M. Mugnaini, A. Ponzoni, E. Sisinni, S. Rocchi, V. Vignoli, CO detection by MOX sensors exploiting their dynamic behavior, in Proceedings of Eurosensors, Dresden, Oct 2008, pp. 1070–1073 82. A. Fort, M. B. Serrano-Santos, R. Spinicci, N. Ulivieri, V. Vignoli, Electronic noses based on metal oxide gas sensors: the problem of selectivity enhancement, Proceedings of IEEE Instrumentation and Measurement Technology Conference - IMTC 2004, Como, May 2004, pp.
Moser, E. Lenggenhager, O. Brand, D. Jaeggi, Thermomechanical microtransducers by CMOS and micromachining micromechanical sensors, in Actuators and Systems, DSC-32, (ASME, New York, 1991), pp. 61–75 34. H. Baltes, O. Brand, CMOS-based microsensors and packaging. Sensor Actuat A 92(1–3), 1–9 (2001) 35. A. Baschirotto, P. Malcovati, Technology-driven alternatives for smart sensor interfaces, in Sensors Update, ed. by H. Baltes, G. Fedder, J. Korvink (Wiley-VCH, Weinhein, 2003), Vol. 13, pp. 45–81 36.
Sun, G. H. Yan, Sizecontrollable one-dimensional SnO2 nanocrystals: Synthesis, growth mechanism and gas sensing property. Phys. Chem. Chem. Phys. 8, 4874– 4880 (2006) 91. J. Y. G. H. Wang, Synthesis and ethanol sensing characteristics of single crystalline SnO2 nanorods. Appl. Phys. Lett. 87, 233503–3 (2005) 92. S. Kumar, S. A. L. J. Hesketh, Tin oxide nanosensor fabrication using AC dielectrophoretic manipulation of nanobelts. Electrochim. Acta 51, 943– 951 (2005) 93. A. O. Klenov, Y. Lilach, S.